var __defProp = Object.defineProperty;
var __getOwnPropSymbols = Object.getOwnPropertySymbols;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __propIsEnum = Object.prototype.propertyIsEnumerable;
var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value;
var __spreadValues = (a, b) => {
  for (var prop in b || (b = {}))
    if (__hasOwnProp.call(b, prop))
      __defNormalProp(a, prop, b[prop]);
  if (__getOwnPropSymbols)
    for (var prop of __getOwnPropSymbols(b)) {
      if (__propIsEnum.call(b, prop))
        __defNormalProp(a, prop, b[prop]);
    }
  return a;
};
var __require = (x) => {
  if (typeof require !== "undefined")
    return require(x);
  throw new Error('Dynamic require of "' + x + '" is not supported');
};
var __commonJS = (cb, mod) => function __require2() {
  return mod || (0, cb[Object.keys(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports;
};
var __async = (__this, __arguments, generator) => {
  return new Promise((resolve, reject) => {
    var fulfilled = (value) => {
      try {
        step(generator.next(value));
      } catch (e) {
        reject(e);
      }
    };
    var rejected = (value) => {
      try {
        step(generator.throw(value));
      } catch (e) {
        reject(e);
      }
    };
    var step = (x) => x.done ? resolve(x.value) : Promise.resolve(x.value).then(fulfilled, rejected);
    step((generator = generator.apply(__this, __arguments)).next());
  });
};

// (disabled):crypto
var require_crypto = __commonJS({
  "(disabled):crypto"() {
  }
});

// dist/web-ifc.js
var require_web_ifc = __commonJS({
  "dist/web-ifc.js"(exports, module) {
    var WebIFCWasm2 = function() {
      var _scriptDir = typeof document !== "undefined" && document.currentScript ? document.currentScript.src : void 0;
      if (typeof __filename !== "undefined")
        _scriptDir = _scriptDir || __filename;
      return function(WebIFCWasm3) {
        WebIFCWasm3 = WebIFCWasm3 || {};
        var Module = typeof WebIFCWasm3 !== "undefined" ? WebIFCWasm3 : {};
        var readyPromiseResolve, readyPromiseReject;
        Module["ready"] = new Promise(function(resolve, reject) {
          readyPromiseResolve = resolve;
          readyPromiseReject = reject;
        });
        var moduleOverrides = {};
        var key;
        for (key in Module) {
          if (Module.hasOwnProperty(key)) {
            moduleOverrides[key] = Module[key];
          }
        }
        var arguments_ = [];
        var thisProgram = "./this.program";
        var quit_ = function(status, toThrow) {
          throw toThrow;
        };
        var ENVIRONMENT_IS_WEB = false;
        var ENVIRONMENT_IS_WORKER = false;
        var ENVIRONMENT_IS_NODE = false;
        var ENVIRONMENT_IS_SHELL = false;
        ENVIRONMENT_IS_WEB = typeof window === "object";
        ENVIRONMENT_IS_WORKER = typeof importScripts === "function";
        ENVIRONMENT_IS_NODE = typeof process === "object" && typeof process.versions === "object" && typeof process.versions.node === "string";
        ENVIRONMENT_IS_SHELL = !ENVIRONMENT_IS_WEB && !ENVIRONMENT_IS_NODE && !ENVIRONMENT_IS_WORKER;
        var scriptDirectory = "";
        function locateFile(path) {
          if (Module["locateFile"]) {
            return Module["locateFile"](path, scriptDirectory);
          }
          return scriptDirectory + path;
        }
        var read_, readAsync, readBinary, setWindowTitle;
        var nodeFS;
        var nodePath;
        if (ENVIRONMENT_IS_NODE) {
          if (ENVIRONMENT_IS_WORKER) {
            scriptDirectory = __require("path").dirname(scriptDirectory) + "/";
          } else {
            scriptDirectory = __dirname + "/";
          }
          read_ = function shell_read(filename, binary) {
            if (!nodeFS)
              nodeFS = __require("fs");
            if (!nodePath)
              nodePath = __require("path");
            filename = nodePath["normalize"](filename);
            return nodeFS["readFileSync"](filename, binary ? null : "utf8");
          };
          readBinary = function readBinary2(filename) {
            var ret = read_(filename, true);
            if (!ret.buffer) {
              ret = new Uint8Array(ret);
            }
            assert(ret.buffer);
            return ret;
          };
          if (process["argv"].length > 1) {
            thisProgram = process["argv"][1].replace(/\\/g, "/");
          }
          arguments_ = process["argv"].slice(2);
          process["on"]("uncaughtException", function(ex) {
            if (!(ex instanceof ExitStatus)) {
              throw ex;
            }
          });
          process["on"]("unhandledRejection", abort);
          quit_ = function(status) {
            process["exit"](status);
          };
          Module["inspect"] = function() {
            return "[Emscripten Module object]";
          };
        } else if (ENVIRONMENT_IS_SHELL) {
          if (typeof read != "undefined") {
            read_ = function shell_read(f) {
              return read(f);
            };
          }
          readBinary = function readBinary2(f) {
            var data;
            if (typeof readbuffer === "function") {
              return new Uint8Array(readbuffer(f));
            }
            data = read(f, "binary");
            assert(typeof data === "object");
            return data;
          };
          if (typeof scriptArgs != "undefined") {
            arguments_ = scriptArgs;
          } else if (typeof arguments != "undefined") {
            arguments_ = arguments;
          }
          if (typeof quit === "function") {
            quit_ = function(status) {
              quit(status);
            };
          }
          if (typeof print !== "undefined") {
            if (typeof console === "undefined")
              console = {};
            console.log = print;
            console.warn = console.error = typeof printErr !== "undefined" ? printErr : print;
          }
        } else if (ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER) {
          if (ENVIRONMENT_IS_WORKER) {
            scriptDirectory = self.location.href;
          } else if (typeof document !== "undefined" && document.currentScript) {
            scriptDirectory = document.currentScript.src;
          }
          if (_scriptDir) {
            scriptDirectory = _scriptDir;
          }
          if (scriptDirectory.indexOf("blob:") !== 0) {
            scriptDirectory = scriptDirectory.slice(0, scriptDirectory.lastIndexOf("/") + 1);
          } else {
            scriptDirectory = "";
          }
          {
            read_ = function shell_read(url) {
              var xhr = new XMLHttpRequest();
              xhr.open("GET", url, false);
              xhr.send(null);
              return xhr.responseText;
            };
            if (ENVIRONMENT_IS_WORKER) {
              readBinary = function readBinary2(url) {
                var xhr = new XMLHttpRequest();
                xhr.open("GET", url, false);
                xhr.responseType = "arraybuffer";
                xhr.send(null);
                return new Uint8Array(xhr.response);
              };
            }
            readAsync = function readAsync2(url, onload, onerror) {
              var xhr = new XMLHttpRequest();
              xhr.open("GET", url, true);
              xhr.responseType = "arraybuffer";
              xhr.onload = function xhr_onload() {
                if (xhr.status == 200 || xhr.status == 0 && xhr.response) {
                  onload(xhr.response);
                  return;
                }
                onerror();
              };
              xhr.onerror = onerror;
              xhr.send(null);
            };
          }
          setWindowTitle = function(title) {
            document.title = title;
          };
        } else {
        }
        var out = Module["print"] || console.log.bind(console);
        var err = Module["printErr"] || console.warn.bind(console);
        for (key in moduleOverrides) {
          if (moduleOverrides.hasOwnProperty(key)) {
            Module[key] = moduleOverrides[key];
          }
        }
        moduleOverrides = null;
        if (Module["arguments"])
          arguments_ = Module["arguments"];
        if (Module["thisProgram"])
          thisProgram = Module["thisProgram"];
        if (Module["quit"])
          quit_ = Module["quit"];
        var STACK_ALIGN = 16;
        function alignMemory(size, factor) {
          if (!factor)
            factor = STACK_ALIGN;
          return Math.ceil(size / factor) * factor;
        }
        var tempRet0 = 0;
        var setTempRet0 = function(value) {
          tempRet0 = value;
        };
        var wasmBinary;
        if (Module["wasmBinary"])
          wasmBinary = Module["wasmBinary"];
        var noExitRuntime;
        if (Module["noExitRuntime"])
          noExitRuntime = Module["noExitRuntime"];
        if (typeof WebAssembly !== "object") {
          abort("no native wasm support detected");
        }
        var wasmMemory;
        var ABORT = false;
        var EXITSTATUS = 0;
        function assert(condition, text) {
          if (!condition) {
            abort("Assertion failed: " + text);
          }
        }
        var UTF8Decoder = typeof TextDecoder !== "undefined" ? new TextDecoder("utf8") : void 0;
        function UTF8ArrayToString(heap, idx, maxBytesToRead) {
          idx >>>= 0;
          var endIdx = idx + maxBytesToRead;
          var endPtr = idx;
          while (heap[endPtr >>> 0] && !(endPtr >= endIdx))
            ++endPtr;
          if (endPtr - idx > 16 && heap.subarray && UTF8Decoder) {
            return UTF8Decoder.decode(heap.subarray(idx >>> 0, endPtr >>> 0));
          } else {
            var str = "";
            while (idx < endPtr) {
              var u0 = heap[idx++ >>> 0];
              if (!(u0 & 128)) {
                str += String.fromCharCode(u0);
                continue;
              }
              var u1 = heap[idx++ >>> 0] & 63;
              if ((u0 & 224) == 192) {
                str += String.fromCharCode((u0 & 31) << 6 | u1);
                continue;
              }
              var u2 = heap[idx++ >>> 0] & 63;
              if ((u0 & 240) == 224) {
                u0 = (u0 & 15) << 12 | u1 << 6 | u2;
              } else {
                u0 = (u0 & 7) << 18 | u1 << 12 | u2 << 6 | heap[idx++ >>> 0] & 63;
              }
              if (u0 < 65536) {
                str += String.fromCharCode(u0);
              } else {
                var ch = u0 - 65536;
                str += String.fromCharCode(55296 | ch >> 10, 56320 | ch & 1023);
              }
            }
          }
          return str;
        }
        function UTF8ToString(ptr, maxBytesToRead) {
          ptr >>>= 0;
          return ptr ? UTF8ArrayToString(HEAPU8, ptr, maxBytesToRead) : "";
        }
        function stringToUTF8Array(str, heap, outIdx, maxBytesToWrite) {
          outIdx >>>= 0;
          if (!(maxBytesToWrite > 0))
            return 0;
          var startIdx = outIdx;
          var endIdx = outIdx + maxBytesToWrite - 1;
          for (var i = 0; i < str.length; ++i) {
            var u = str.charCodeAt(i);
            if (u >= 55296 && u <= 57343) {
              var u1 = str.charCodeAt(++i);
              u = 65536 + ((u & 1023) << 10) | u1 & 1023;
            }
            if (u <= 127) {
              if (outIdx >= endIdx)
                break;
              heap[outIdx++ >>> 0] = u;
            } else if (u <= 2047) {
              if (outIdx + 1 >= endIdx)
                break;
              heap[outIdx++ >>> 0] = 192 | u >> 6;
              heap[outIdx++ >>> 0] = 128 | u & 63;
            } else if (u <= 65535) {
              if (outIdx + 2 >= endIdx)
                break;
              heap[outIdx++ >>> 0] = 224 | u >> 12;
              heap[outIdx++ >>> 0] = 128 | u >> 6 & 63;
              heap[outIdx++ >>> 0] = 128 | u & 63;
            } else {
              if (outIdx + 3 >= endIdx)
                break;
              heap[outIdx++ >>> 0] = 240 | u >> 18;
              heap[outIdx++ >>> 0] = 128 | u >> 12 & 63;
              heap[outIdx++ >>> 0] = 128 | u >> 6 & 63;
              heap[outIdx++ >>> 0] = 128 | u & 63;
            }
          }
          heap[outIdx >>> 0] = 0;
          return outIdx - startIdx;
        }
        function stringToUTF8(str, outPtr, maxBytesToWrite) {
          return stringToUTF8Array(str, HEAPU8, outPtr, maxBytesToWrite);
        }
        function lengthBytesUTF8(str) {
          var len = 0;
          for (var i = 0; i < str.length; ++i) {
            var u = str.charCodeAt(i);
            if (u >= 55296 && u <= 57343)
              u = 65536 + ((u & 1023) << 10) | str.charCodeAt(++i) & 1023;
            if (u <= 127)
              ++len;
            else if (u <= 2047)
              len += 2;
            else if (u <= 65535)
              len += 3;
            else
              len += 4;
          }
          return len;
        }
        var UTF16Decoder = typeof TextDecoder !== "undefined" ? new TextDecoder("utf-16le") : void 0;
        function UTF16ToString(ptr, maxBytesToRead) {
          var endPtr = ptr;
          var idx = endPtr >> 1;
          var maxIdx = idx + maxBytesToRead / 2;
          while (!(idx >= maxIdx) && HEAPU16[idx >>> 0])
            ++idx;
          endPtr = idx << 1;
          if (endPtr - ptr > 32 && UTF16Decoder) {
            return UTF16Decoder.decode(HEAPU8.subarray(ptr >>> 0, endPtr >>> 0));
          } else {
            var str = "";
            for (var i = 0; !(i >= maxBytesToRead / 2); ++i) {
              var codeUnit = HEAP16[ptr + i * 2 >>> 1];
              if (codeUnit == 0)
                break;
              str += String.fromCharCode(codeUnit);
            }
            return str;
          }
        }
        function stringToUTF16(str, outPtr, maxBytesToWrite) {
          if (maxBytesToWrite === void 0) {
            maxBytesToWrite = 2147483647;
          }
          if (maxBytesToWrite < 2)
            return 0;
          maxBytesToWrite -= 2;
          var startPtr = outPtr;
          var numCharsToWrite = maxBytesToWrite < str.length * 2 ? maxBytesToWrite / 2 : str.length;
          for (var i = 0; i < numCharsToWrite; ++i) {
            var codeUnit = str.charCodeAt(i);
            HEAP16[outPtr >>> 1] = codeUnit;
            outPtr += 2;
          }
          HEAP16[outPtr >>> 1] = 0;
          return outPtr - startPtr;
        }
        function lengthBytesUTF16(str) {
          return str.length * 2;
        }
        function UTF32ToString(ptr, maxBytesToRead) {
          var i = 0;
          var str = "";
          while (!(i >= maxBytesToRead / 4)) {
            var utf32 = HEAP32[ptr + i * 4 >>> 2];
            if (utf32 == 0)
              break;
            ++i;
            if (utf32 >= 65536) {
              var ch = utf32 - 65536;
              str += String.fromCharCode(55296 | ch >> 10, 56320 | ch & 1023);
            } else {
              str += String.fromCharCode(utf32);
            }
          }
          return str;
        }
        function stringToUTF32(str, outPtr, maxBytesToWrite) {
          outPtr >>>= 0;
          if (maxBytesToWrite === void 0) {
            maxBytesToWrite = 2147483647;
          }
          if (maxBytesToWrite < 4)
            return 0;
          var startPtr = outPtr;
          var endPtr = startPtr + maxBytesToWrite - 4;
          for (var i = 0; i < str.length; ++i) {
            var codeUnit = str.charCodeAt(i);
            if (codeUnit >= 55296 && codeUnit <= 57343) {
              var trailSurrogate = str.charCodeAt(++i);
              codeUnit = 65536 + ((codeUnit & 1023) << 10) | trailSurrogate & 1023;
            }
            HEAP32[outPtr >>> 2] = codeUnit;
            outPtr += 4;
            if (outPtr + 4 > endPtr)
              break;
          }
          HEAP32[outPtr >>> 2] = 0;
          return outPtr - startPtr;
        }
        function lengthBytesUTF32(str) {
          var len = 0;
          for (var i = 0; i < str.length; ++i) {
            var codeUnit = str.charCodeAt(i);
            if (codeUnit >= 55296 && codeUnit <= 57343)
              ++i;
            len += 4;
          }
          return len;
        }
        function writeArrayToMemory(array, buffer2) {
          HEAP8.set(array, buffer2 >>> 0);
        }
        function writeAsciiToMemory(str, buffer2, dontAddNull) {
          for (var i = 0; i < str.length; ++i) {
            HEAP8[buffer2++ >>> 0] = str.charCodeAt(i);
          }
          if (!dontAddNull)
            HEAP8[buffer2 >>> 0] = 0;
        }
        function alignUp(x, multiple) {
          if (x % multiple > 0) {
            x += multiple - x % multiple;
          }
          return x;
        }
        var buffer, HEAP8, HEAPU8, HEAP16, HEAPU16, HEAP32, HEAPU32, HEAPF32, HEAPF64;
        function updateGlobalBufferAndViews(buf) {
          buffer = buf;
          Module["HEAP8"] = HEAP8 = new Int8Array(buf);
          Module["HEAP16"] = HEAP16 = new Int16Array(buf);
          Module["HEAP32"] = HEAP32 = new Int32Array(buf);
          Module["HEAPU8"] = HEAPU8 = new Uint8Array(buf);
          Module["HEAPU16"] = HEAPU16 = new Uint16Array(buf);
          Module["HEAPU32"] = HEAPU32 = new Uint32Array(buf);
          Module["HEAPF32"] = HEAPF32 = new Float32Array(buf);
          Module["HEAPF64"] = HEAPF64 = new Float64Array(buf);
        }
        var INITIAL_MEMORY = Module["INITIAL_MEMORY"] || 16777216;
        if (Module["wasmMemory"]) {
          wasmMemory = Module["wasmMemory"];
        } else {
          wasmMemory = new WebAssembly.Memory({ "initial": INITIAL_MEMORY / 65536, "maximum": 4294967296 / 65536 });
        }
        if (wasmMemory) {
          buffer = wasmMemory.buffer;
        }
        INITIAL_MEMORY = buffer.byteLength;
        updateGlobalBufferAndViews(buffer);
        var wasmTable;
        var __ATPRERUN__ = [];
        var __ATINIT__ = [];
        var __ATMAIN__ = [];
        var __ATPOSTRUN__ = [];
        var runtimeInitialized = false;
        var runtimeExited = false;
        function preRun() {
          if (Module["preRun"]) {
            if (typeof Module["preRun"] == "function")
              Module["preRun"] = [Module["preRun"]];
            while (Module["preRun"].length) {
              addOnPreRun(Module["preRun"].shift());
            }
          }
          callRuntimeCallbacks(__ATPRERUN__);
        }
        function initRuntime() {
          runtimeInitialized = true;
          if (!Module["noFSInit"] && !FS.init.initialized)
            FS.init();
          TTY.init();
          callRuntimeCallbacks(__ATINIT__);
        }
        function preMain() {
          FS.ignorePermissions = false;
          callRuntimeCallbacks(__ATMAIN__);
        }
        function exitRuntime() {
          runtimeExited = true;
        }
        function postRun() {
          if (Module["postRun"]) {
            if (typeof Module["postRun"] == "function")
              Module["postRun"] = [Module["postRun"]];
            while (Module["postRun"].length) {
              addOnPostRun(Module["postRun"].shift());
            }
          }
          callRuntimeCallbacks(__ATPOSTRUN__);
        }
        function addOnPreRun(cb) {
          __ATPRERUN__.unshift(cb);
        }
        function addOnPostRun(cb) {
          __ATPOSTRUN__.unshift(cb);
        }
        var runDependencies = 0;
        var runDependencyWatcher = null;
        var dependenciesFulfilled = null;
        function getUniqueRunDependency(id) {
          return id;
        }
        function addRunDependency(id) {
          runDependencies++;
          if (Module["monitorRunDependencies"]) {
            Module["monitorRunDependencies"](runDependencies);
          }
        }
        function removeRunDependency(id) {
          runDependencies--;
          if (Module["monitorRunDependencies"]) {
            Module["monitorRunDependencies"](runDependencies);
          }
          if (runDependencies == 0) {
            if (runDependencyWatcher !== null) {
              clearInterval(runDependencyWatcher);
              runDependencyWatcher = null;
            }
            if (dependenciesFulfilled) {
              var callback = dependenciesFulfilled;
              dependenciesFulfilled = null;
              callback();
            }
          }
        }
        Module["preloadedImages"] = {};
        Module["preloadedAudios"] = {};
        function abort(what) {
          if (Module["onAbort"]) {
            Module["onAbort"](what);
          }
          what += "";
          err(what);
          ABORT = true;
          EXITSTATUS = 1;
          what = "abort(" + what + "). Build with -s ASSERTIONS=1 for more info.";
          var e = new WebAssembly.RuntimeError(what);
          readyPromiseReject(e);
          throw e;
        }
        function hasPrefix(str, prefix) {
          return String.prototype.startsWith ? str.startsWith(prefix) : str.indexOf(prefix) === 0;
        }
        var dataURIPrefix = "data:application/octet-stream;base64,";
        function isDataURI(filename) {
          return hasPrefix(filename, dataURIPrefix);
        }
        var fileURIPrefix = "file://";
        function isFileURI(filename) {
          return hasPrefix(filename, fileURIPrefix);
        }
        var wasmBinaryFile = WasmPath + "web-ifc.wasm";
        if (!isDataURI(wasmBinaryFile)) {
          wasmBinaryFile = locateFile(wasmBinaryFile);
        }
        function getBinary() {
          try {
            if (wasmBinary) {
              return new Uint8Array(wasmBinary);
            }
            if (readBinary) {
              return readBinary(wasmBinaryFile);
            } else {
              throw "both async and sync fetching of the wasm failed";
            }
          } catch (err2) {
            abort(err2);
          }
        }
        function getBinaryPromise() {
          if (!wasmBinary && (ENVIRONMENT_IS_WEB || ENVIRONMENT_IS_WORKER) && typeof fetch === "function" && !isFileURI(wasmBinaryFile)) {
            return fetch(wasmBinaryFile, { credentials: "same-origin" }).then(function(response) {
              if (!response["ok"]) {
                throw "failed to load wasm binary file at '" + wasmBinaryFile + "'";
              }
              return response["arrayBuffer"]();
            }).catch(function() {
              return getBinary();
            });
          }
          return Promise.resolve().then(getBinary);
        }
        function createWasm() {
          var info = { "a": asmLibraryArg };
          function receiveInstance(instance, module2) {
            var exports3 = instance.exports;
            Module["asm"] = exports3;
            wasmTable = Module["asm"]["X"];
            removeRunDependency("wasm-instantiate");
          }
          addRunDependency("wasm-instantiate");
          function receiveInstantiatedSource(output) {
            receiveInstance(output["instance"]);
          }
          function instantiateArrayBuffer(receiver) {
            return getBinaryPromise().then(function(binary) {
              return WebAssembly.instantiate(binary, info);
            }).then(receiver, function(reason) {
              err("failed to asynchronously prepare wasm: " + reason);
              abort(reason);
            });
          }
          function instantiateAsync() {
            if (!wasmBinary && typeof WebAssembly.instantiateStreaming === "function" && !isDataURI(wasmBinaryFile) && !isFileURI(wasmBinaryFile) && typeof fetch === "function") {
              return fetch(wasmBinaryFile, { credentials: "same-origin" }).then(function(response) {
                var result = WebAssembly.instantiateStreaming(response, info);
                return result.then(receiveInstantiatedSource, function(reason) {
                  err("wasm streaming compile failed: " + reason);
                  err("falling back to ArrayBuffer instantiation");
                  return instantiateArrayBuffer(receiveInstantiatedSource);
                });
              });
            } else {
              return instantiateArrayBuffer(receiveInstantiatedSource);
            }
          }
          if (Module["instantiateWasm"]) {
            try {
              var exports2 = Module["instantiateWasm"](info, receiveInstance);
              return exports2;
            } catch (e) {
              err("Module.instantiateWasm callback failed with error: " + e);
              return false;
            }
          }
          instantiateAsync().catch(readyPromiseReject);
          return {};
        }
        var tempDouble;
        var tempI64;
        function callRuntimeCallbacks(callbacks) {
          while (callbacks.length > 0) {
            var callback = callbacks.shift();
            if (typeof callback == "function") {
              callback(Module);
              continue;
            }
            var func = callback.func;
            if (typeof func === "number") {
              if (callback.arg === void 0) {
                wasmTable.get(func)();
              } else {
                wasmTable.get(func)(callback.arg);
              }
            } else {
              func(callback.arg === void 0 ? null : callback.arg);
            }
          }
        }
        function dynCallLegacy(sig, ptr, args) {
          if (args && args.length) {
            return Module["dynCall_" + sig].apply(null, [ptr].concat(args));
          }
          return Module["dynCall_" + sig].call(null, ptr);
        }
        function dynCall(sig, ptr, args) {
          if (sig.indexOf("j") != -1) {
            return dynCallLegacy(sig, ptr, args);
          }
          return wasmTable.get(ptr).apply(null, args);
        }
        function ___assert_fail(condition, filename, line, func) {
          abort("Assertion failed: " + UTF8ToString(condition) + ", at: " + [filename ? UTF8ToString(filename) : "unknown filename", line, func ? UTF8ToString(func) : "unknown function"]);
        }
        function setErrNo(value) {
          HEAP32[___errno_location() >>> 2] = value;
          return value;
        }
        var PATH = { splitPath: function(filename) {
          var splitPathRe = /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/;
          return splitPathRe.exec(filename).slice(1);
        }, normalizeArray: function(parts, allowAboveRoot) {
          var up = 0;
          for (var i = parts.length - 1; i >= 0; i--) {
            var last = parts[i];
            if (last === ".") {
              parts.splice(i, 1);
            } else if (last === "..") {
              parts.splice(i, 1);
              up++;
            } else if (up) {
              parts.splice(i, 1);
              up--;
            }
          }
          if (allowAboveRoot) {
            for (; up; up--) {
              parts.unshift("..");
            }
          }
          return parts;
        }, normalize: function(path) {
          var isAbsolute = path.charAt(0) === "/", trailingSlash = path.slice(-1) === "/";
          path = PATH.normalizeArray(path.split("/").filter(function(p) {
            return !!p;
          }), !isAbsolute).join("/");
          if (!path && !isAbsolute) {
            path = ".";
          }
          if (path && trailingSlash) {
            path += "/";
          }
          return (isAbsolute ? "/" : "") + path;
        }, dirname: function(path) {
          var result = PATH.splitPath(path), root = result[0], dir = result[1];
          if (!root && !dir) {
            return ".";
          }
          if (dir) {
            dir = dir.slice(0, dir.length - 1);
          }
          return root + dir;
        }, basename: function(path) {
          if (path === "/")
            return "/";
          path = PATH.normalize(path);
          path = path.replace(/\/$/, "");
          var lastSlash = path.lastIndexOf("/");
          if (lastSlash === -1)
            return path;
          return path.slice(lastSlash + 1);
        }, extname: function(path) {
          return PATH.splitPath(path)[3];
        }, join: function() {
          var paths = Array.prototype.slice.call(arguments, 0);
          return PATH.normalize(paths.join("/"));
        }, join2: function(l, r) {
          return PATH.normalize(l + "/" + r);
        } };
        function getRandomDevice() {
          if (typeof crypto === "object" && typeof crypto["getRandomValues"] === "function") {
            var randomBuffer = new Uint8Array(1);
            return function() {
              crypto.getRandomValues(randomBuffer);
              return randomBuffer[0];
            };
          } else if (ENVIRONMENT_IS_NODE) {
            try {
              var crypto_module = require_crypto();
              return function() {
                return crypto_module["randomBytes"](1)[0];
              };
            } catch (e) {
            }
          }
          return function() {
            abort("randomDevice");
          };
        }
        var PATH_FS = { resolve: function() {
          var resolvedPath = "", resolvedAbsolute = false;
          for (var i = arguments.length - 1; i >= -1 && !resolvedAbsolute; i--) {
            var path = i >= 0 ? arguments[i] : FS.cwd();
            if (typeof path !== "string") {
              throw new TypeError("Arguments to path.resolve must be strings");
            } else if (!path) {
              return "";
            }
            resolvedPath = path + "/" + resolvedPath;
            resolvedAbsolute = path.charAt(0) === "/";
          }
          resolvedPath = PATH.normalizeArray(resolvedPath.split("/").filter(function(p) {
            return !!p;
          }), !resolvedAbsolute).join("/");
          return (resolvedAbsolute ? "/" : "") + resolvedPath || ".";
        }, relative: function(from, to) {
          from = PATH_FS.resolve(from).slice(1);
          to = PATH_FS.resolve(to).slice(1);
          function trim(arr) {
            var start = 0;
            for (; start < arr.length; start++) {
              if (arr[start] !== "")
                break;
            }
            var end = arr.length - 1;
            for (; end >= 0; end--) {
              if (arr[end] !== "")
                break;
            }
            if (start > end)
              return [];
            return arr.slice(start, end - start + 1);
          }
          var fromParts = trim(from.split("/"));
          var toParts = trim(to.split("/"));
          var length = Math.min(fromParts.length, toParts.length);
          var samePartsLength = length;
          for (var i = 0; i < length; i++) {
            if (fromParts[i] !== toParts[i]) {
              samePartsLength = i;
              break;
            }
          }
          var outputParts = [];
          for (var i = samePartsLength; i < fromParts.length; i++) {
            outputParts.push("..");
          }
          outputParts = outputParts.concat(toParts.slice(samePartsLength));
          return outputParts.join("/");
        } };
        var TTY = { ttys: [], init: function() {
        }, shutdown: function() {
        }, register: function(dev, ops) {
          TTY.ttys[dev] = { input: [], output: [], ops };
          FS.registerDevice(dev, TTY.stream_ops);
        }, stream_ops: { open: function(stream) {
          var tty = TTY.ttys[stream.node.rdev];
          if (!tty) {
            throw new FS.ErrnoError(43);
          }
          stream.tty = tty;
          stream.seekable = false;
        }, close: function(stream) {
          stream.tty.ops.flush(stream.tty);
        }, flush: function(stream) {
          stream.tty.ops.flush(stream.tty);
        }, read: function(stream, buffer2, offset, length, pos) {
          if (!stream.tty || !stream.tty.ops.get_char) {
            throw new FS.ErrnoError(60);
          }
          var bytesRead = 0;
          for (var i = 0; i < length; i++) {
            var result;
            try {
              result = stream.tty.ops.get_char(stream.tty);
            } catch (e) {
              throw new FS.ErrnoError(29);
            }
            if (result === void 0 && bytesRead === 0) {
              throw new FS.ErrnoError(6);
            }
            if (result === null || result === void 0)
              break;
            bytesRead++;
            buffer2[offset + i] = result;
          }
          if (bytesRead) {
            stream.node.timestamp = Date.now();
          }
          return bytesRead;
        }, write: function(stream, buffer2, offset, length, pos) {
          if (!stream.tty || !stream.tty.ops.put_char) {
            throw new FS.ErrnoError(60);
          }
          try {
            for (var i = 0; i < length; i++) {
              stream.tty.ops.put_char(stream.tty, buffer2[offset + i]);
            }
          } catch (e) {
            throw new FS.ErrnoError(29);
          }
          if (length) {
            stream.node.timestamp = Date.now();
          }
          return i;
        } }, default_tty_ops: { get_char: function(tty) {
          if (!tty.input.length) {
            var result = null;
            if (ENVIRONMENT_IS_NODE) {
              var BUFSIZE = 256;
              var buf = Buffer.alloc ? Buffer.alloc(BUFSIZE) : new Buffer(BUFSIZE);
              var bytesRead = 0;
              try {
                bytesRead = nodeFS.readSync(process.stdin.fd, buf, 0, BUFSIZE, null);
              } catch (e) {
                if (e.toString().indexOf("EOF") != -1)
                  bytesRead = 0;
                else
                  throw e;
              }
              if (bytesRead > 0) {
                result = buf.slice(0, bytesRead).toString("utf-8");
              } else {
                result = null;
              }
            } else if (typeof window != "undefined" && typeof window.prompt == "function") {
              result = window.prompt("Input: ");
              if (result !== null) {
                result += "\n";
              }
            } else if (typeof readline == "function") {
              result = readline();
              if (result !== null) {
                result += "\n";
              }
            }
            if (!result) {
              return null;
            }
            tty.input = intArrayFromString(result, true);
          }
          return tty.input.shift();
        }, put_char: function(tty, val) {
          if (val === null || val === 10) {
            out(UTF8ArrayToString(tty.output, 0));
            tty.output = [];
          } else {
            if (val != 0)
              tty.output.push(val);
          }
        }, flush: function(tty) {
          if (tty.output && tty.output.length > 0) {
            out(UTF8ArrayToString(tty.output, 0));
            tty.output = [];
          }
        } }, default_tty1_ops: { put_char: function(tty, val) {
          if (val === null || val === 10) {
            err(UTF8ArrayToString(tty.output, 0));
            tty.output = [];
          } else {
            if (val != 0)
              tty.output.push(val);
          }
        }, flush: function(tty) {
          if (tty.output && tty.output.length > 0) {
            err(UTF8ArrayToString(tty.output, 0));
            tty.output = [];
          }
        } } };
        function mmapAlloc(size) {
          var alignedSize = alignMemory(size, 16384);
          var ptr = _malloc(alignedSize);
          while (size < alignedSize)
            HEAP8[ptr + size++ >>> 0] = 0;
          return ptr;
        }
        var MEMFS = { ops_table: null, mount: function(mount) {
          return MEMFS.createNode(null, "/", 16384 | 511, 0);
        }, createNode: function(parent, name2, mode, dev) {
          if (FS.isBlkdev(mode) || FS.isFIFO(mode)) {
            throw new FS.ErrnoError(63);
          }
          if (!MEMFS.ops_table) {
            MEMFS.ops_table = { dir: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr, lookup: MEMFS.node_ops.lookup, mknod: MEMFS.node_ops.mknod, rename: MEMFS.node_ops.rename, unlink: MEMFS.node_ops.unlink, rmdir: MEMFS.node_ops.rmdir, readdir: MEMFS.node_ops.readdir, symlink: MEMFS.node_ops.symlink }, stream: { llseek: MEMFS.stream_ops.llseek } }, file: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr }, stream: { llseek: MEMFS.stream_ops.llseek, read: MEMFS.stream_ops.read, write: MEMFS.stream_ops.write, allocate: MEMFS.stream_ops.allocate, mmap: MEMFS.stream_ops.mmap, msync: MEMFS.stream_ops.msync } }, link: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr, readlink: MEMFS.node_ops.readlink }, stream: {} }, chrdev: { node: { getattr: MEMFS.node_ops.getattr, setattr: MEMFS.node_ops.setattr }, stream: FS.chrdev_stream_ops } };
          }
          var node = FS.createNode(parent, name2, mode, dev);
          if (FS.isDir(node.mode)) {
            node.node_ops = MEMFS.ops_table.dir.node;
            node.stream_ops = MEMFS.ops_table.dir.stream;
            node.contents = {};
          } else if (FS.isFile(node.mode)) {
            node.node_ops = MEMFS.ops_table.file.node;
            node.stream_ops = MEMFS.ops_table.file.stream;
            node.usedBytes = 0;
            node.contents = null;
          } else if (FS.isLink(node.mode)) {
            node.node_ops = MEMFS.ops_table.link.node;
            node.stream_ops = MEMFS.ops_table.link.stream;
          } else if (FS.isChrdev(node.mode)) {
            node.node_ops = MEMFS.ops_table.chrdev.node;
            node.stream_ops = MEMFS.ops_table.chrdev.stream;
          }
          node.timestamp = Date.now();
          if (parent) {
            parent.contents[name2] = node;
          }
          return node;
        }, getFileDataAsRegularArray: function(node) {
          if (node.contents && node.contents.subarray) {
            var arr = [];
            for (var i = 0; i < node.usedBytes; ++i)
              arr.push(node.contents[i]);
            return arr;
          }
          return node.contents;
        }, getFileDataAsTypedArray: function(node) {
          if (!node.contents)
            return new Uint8Array(0);
          if (node.contents.subarray)
            return node.contents.subarray(0, node.usedBytes);
          return new Uint8Array(node.contents);
        }, expandFileStorage: function(node, newCapacity) {
          newCapacity >>>= 0;
          var prevCapacity = node.contents ? node.contents.length : 0;
          if (prevCapacity >= newCapacity)
            return;
          var CAPACITY_DOUBLING_MAX = 1024 * 1024;
          newCapacity = Math.max(newCapacity, prevCapacity * (prevCapacity < CAPACITY_DOUBLING_MAX ? 2 : 1.125) >>> 0);
          if (prevCapacity != 0)
            newCapacity = Math.max(newCapacity, 256);
          var oldContents = node.contents;
          node.contents = new Uint8Array(newCapacity);
          if (node.usedBytes > 0)
            node.contents.set(oldContents.subarray(0, node.usedBytes), 0);
          return;
        }, resizeFileStorage: function(node, newSize) {
          newSize >>>= 0;
          if (node.usedBytes == newSize)
            return;
          if (newSize == 0) {
            node.contents = null;
            node.usedBytes = 0;
            return;
          }
          if (!node.contents || node.contents.subarray) {
            var oldContents = node.contents;
            node.contents = new Uint8Array(newSize);
            if (oldContents) {
              node.contents.set(oldContents.subarray(0, Math.min(newSize, node.usedBytes)));
            }
            node.usedBytes = newSize;
            return;
          }
          if (!node.contents)
            node.contents = [];
          if (node.contents.length > newSize)
            node.contents.length = newSize;
          else
            while (node.contents.length < newSize)
              node.contents.push(0);
          node.usedBytes = newSize;
        }, node_ops: { getattr: function(node) {
          var attr = {};
          attr.dev = FS.isChrdev(node.mode) ? node.id : 1;
          attr.ino = node.id;
          attr.mode = node.mode;
          attr.nlink = 1;
          attr.uid = 0;
          attr.gid = 0;
          attr.rdev = node.rdev;
          if (FS.isDir(node.mode)) {
            attr.size = 4096;
          } else if (FS.isFile(node.mode)) {
            attr.size = node.usedBytes;
          } else if (FS.isLink(node.mode)) {
            attr.size = node.link.length;
          } else {
            attr.size = 0;
          }
          attr.atime = new Date(node.timestamp);
          attr.mtime = new Date(node.timestamp);
          attr.ctime = new Date(node.timestamp);
          attr.blksize = 4096;
          attr.blocks = Math.ceil(attr.size / attr.blksize);
          return attr;
        }, setattr: function(node, attr) {
          if (attr.mode !== void 0) {
            node.mode = attr.mode;
          }
          if (attr.timestamp !== void 0) {
            node.timestamp = attr.timestamp;
          }
          if (attr.size !== void 0) {
            MEMFS.resizeFileStorage(node, attr.size);
          }
        }, lookup: function(parent, name2) {
          throw FS.genericErrors[44];
        }, mknod: function(parent, name2, mode, dev) {
          return MEMFS.createNode(parent, name2, mode, dev);
        }, rename: function(old_node, new_dir, new_name) {
          if (FS.isDir(old_node.mode)) {
            var new_node;
            try {
              new_node = FS.lookupNode(new_dir, new_name);
            } catch (e) {
            }
            if (new_node) {
              for (var i in new_node.contents) {
                throw new FS.ErrnoError(55);
              }
            }
          }
          delete old_node.parent.contents[old_node.name];
          old_node.name = new_name;
          new_dir.contents[new_name] = old_node;
          old_node.parent = new_dir;
        }, unlink: function(parent, name2) {
          delete parent.contents[name2];
        }, rmdir: function(parent, name2) {
          var node = FS.lookupNode(parent, name2);
          for (var i in node.contents) {
            throw new FS.ErrnoError(55);
          }
          delete parent.contents[name2];
        }, readdir: function(node) {
          var entries = [".", ".."];
          for (var key2 in node.contents) {
            if (!node.contents.hasOwnProperty(key2)) {
              continue;
            }
            entries.push(key2);
          }
          return entries;
        }, symlink: function(parent, newname, oldpath) {
          var node = MEMFS.createNode(parent, newname, 511 | 40960, 0);
          node.link = oldpath;
          return node;
        }, readlink: function(node) {
          if (!FS.isLink(node.mode)) {
            throw new FS.ErrnoError(28);
          }
          return node.link;
        } }, stream_ops: { read: function(stream, buffer2, offset, length, position) {
          var contents = stream.node.contents;
          if (position >= stream.node.usedBytes)
            return 0;
          var size = Math.min(stream.node.usedBytes - position, length);
          if (size > 8 && contents.subarray) {
            buffer2.set(contents.subarray(position, position + size), offset);
          } else {
            for (var i = 0; i < size; i++)
              buffer2[offset + i] = contents[position + i];
          }
          return size;
        }, write: function(stream, buffer2, offset, length, position, canOwn) {
          if (buffer2.buffer === HEAP8.buffer) {
            canOwn = false;
          }
          if (!length)
            return 0;
          var node = stream.node;
          node.timestamp = Date.now();
          if (buffer2.subarray && (!node.contents || node.contents.subarray)) {
            if (canOwn) {
              node.contents = buffer2.subarray(offset, offset + length);
              node.usedBytes = length;
              return length;
            } else if (node.usedBytes === 0 && position === 0) {
              node.contents = buffer2.slice(offset, offset + length);
              node.usedBytes = length;
              return length;
            } else if (position + length <= node.usedBytes) {
              node.contents.set(buffer2.subarray(offset, offset + length), position);
              return length;
            }
          }
          MEMFS.expandFileStorage(node, position + length);
          if (node.contents.subarray && buffer2.subarray) {
            node.contents.set(buffer2.subarray(offset, offset + length), position);
          } else {
            for (var i = 0; i < length; i++) {
              node.contents[position + i] = buffer2[offset + i];
            }
          }
          node.usedBytes = Math.max(node.usedBytes, position + length);
          return length;
        }, llseek: function(stream, offset, whence) {
          var position = offset;
          if (whence === 1) {
            position += stream.position;
          } else if (whence === 2) {
            if (FS.isFile(stream.node.mode)) {
              position += stream.node.usedBytes;
            }
          }
          if (position < 0) {
            throw new FS.ErrnoError(28);
          }
          return position;
        }, allocate: function(stream, offset, length) {
          MEMFS.expandFileStorage(stream.node, offset + length);
          stream.node.usedBytes = Math.max(stream.node.usedBytes, offset + length);
        }, mmap: function(stream, address, length, position, prot, flags) {
          assert(address === 0);
          if (!FS.isFile(stream.node.mode)) {
            throw new FS.ErrnoError(43);
          }
          var ptr;
          var allocated;
          var contents = stream.node.contents;
          if (!(flags & 2) && contents.buffer === buffer) {
            allocated = false;
            ptr = contents.byteOffset;
          } else {
            if (position > 0 || position + length < contents.length) {
              if (contents.subarray) {
                contents = contents.subarray(position, position + length);
              } else {
                contents = Array.prototype.slice.call(contents, position, position + length);
              }
            }
            allocated = true;
            ptr = mmapAlloc(length);
            if (!ptr) {
              throw new FS.ErrnoError(48);
            }
            ptr >>>= 0;
            HEAP8.set(contents, ptr >>> 0);
          }
          return { ptr, allocated };
        }, msync: function(stream, buffer2, offset, length, mmapFlags) {
          if (!FS.isFile(stream.node.mode)) {
            throw new FS.ErrnoError(43);
          }
          if (mmapFlags & 2) {
            return 0;
          }
          var bytesWritten = MEMFS.stream_ops.write(stream, buffer2, 0, length, offset, false);
          return 0;
        } } };
        var FS = { root: null, mounts: [], devices: {}, streams: [], nextInode: 1, nameTable: null, currentPath: "/", initialized: false, ignorePermissions: true, trackingDelegate: {}, tracking: { openFlags: { READ: 1, WRITE: 2 } }, ErrnoError: null, genericErrors: {}, filesystems: null, syncFSRequests: 0, lookupPath: function(path, opts) {
          path = PATH_FS.resolve(FS.cwd(), path);
          opts = opts || {};
          if (!path)
            return { path: "", node: null };
          var defaults = { follow_mount: true, recurse_count: 0 };
          for (var key2 in defaults) {
            if (opts[key2] === void 0) {
              opts[key2] = defaults[key2];
            }
          }
          if (opts.recurse_count > 8) {
            throw new FS.ErrnoError(32);
          }
          var parts = PATH.normalizeArray(path.split("/").filter(function(p) {
            return !!p;
          }), false);
          var current = FS.root;
          var current_path = "/";
          for (var i = 0; i < parts.length; i++) {
            var islast = i === parts.length - 1;
            if (islast && opts.parent) {
              break;
            }
            current = FS.lookupNode(current, parts[i]);
            current_path = PATH.join2(current_path, parts[i]);
            if (FS.isMountpoint(current)) {
              if (!islast || islast && opts.follow_mount) {
                current = current.mounted.root;
              }
            }
            if (!islast || opts.follow) {
              var count = 0;
              while (FS.isLink(current.mode)) {
                var link = FS.readlink(current_path);
                current_path = PATH_FS.resolve(PATH.dirname(current_path), link);
                var lookup = FS.lookupPath(current_path, { recurse_count: opts.recurse_count });
                current = lookup.node;
                if (count++ > 40) {
                  throw new FS.ErrnoError(32);
                }
              }
            }
          }
          return { path: current_path, node: current };
        }, getPath: function(node) {
          var path;
          while (true) {
            if (FS.isRoot(node)) {
              var mount = node.mount.mountpoint;
              if (!path)
                return mount;
              return mount[mount.length - 1] !== "/" ? mount + "/" + path : mount + path;
            }
            path = path ? node.name + "/" + path : node.name;
            node = node.parent;
          }
        }, hashName: function(parentid, name2) {
          var hash = 0;
          for (var i = 0; i < name2.length; i++) {
            hash = (hash << 5) - hash + name2.charCodeAt(i) | 0;
          }
          return (parentid + hash >>> 0) % FS.nameTable.length;
        }, hashAddNode: function(node) {
          var hash = FS.hashName(node.parent.id, node.name);
          node.name_next = FS.nameTable[hash];
          FS.nameTable[hash] = node;
        }, hashRemoveNode: function(node) {
          var hash = FS.hashName(node.parent.id, node.name);
          if (FS.nameTable[hash] === node) {
            FS.nameTable[hash] = node.name_next;
          } else {
            var current = FS.nameTable[hash];
            while (current) {
              if (current.name_next === node) {
                current.name_next = node.name_next;
                break;
              }
              current = current.name_next;
            }
          }
        }, lookupNode: function(parent, name2) {
          var errCode = FS.mayLookup(parent);
          if (errCode) {
            throw new FS.ErrnoError(errCode, parent);
          }
          var hash = FS.hashName(parent.id, name2);
          for (var node = FS.nameTable[hash]; node; node = node.name_next) {
            var nodeName = node.name;
            if (node.parent.id === parent.id && nodeName === name2) {
              return node;
            }
          }
          return FS.lookup(parent, name2);
        }, createNode: function(parent, name2, mode, rdev) {
          var node = new FS.FSNode(parent, name2, mode, rdev);
          FS.hashAddNode(node);
          return node;
        }, destroyNode: function(node) {
          FS.hashRemoveNode(node);
        }, isRoot: function(node) {
          return node === node.parent;
        }, isMountpoint: function(node) {
          return !!node.mounted;
        }, isFile: function(mode) {
          return (mode & 61440) === 32768;
        }, isDir: function(mode) {
          return (mode & 61440) === 16384;
        }, isLink: function(mode) {
          return (mode & 61440) === 40960;
        }, isChrdev: function(mode) {
          return (mode & 61440) === 8192;
        }, isBlkdev: function(mode) {
          return (mode & 61440) === 24576;
        }, isFIFO: function(mode) {
          return (mode & 61440) === 4096;
        }, isSocket: function(mode) {
          return (mode & 49152) === 49152;
        }, flagModes: { "r": 0, "r+": 2, "w": 577, "w+": 578, "a": 1089, "a+": 1090 }, modeStringToFlags: function(str) {
          var flags = FS.flagModes[str];
          if (typeof flags === "undefined") {
            throw new Error("Unknown file open mode: " + str);
          }
          return flags;
        }, flagsToPermissionString: function(flag) {
          var perms = ["r", "w", "rw"][flag & 3];
          if (flag & 512) {
            perms += "w";
          }
          return perms;
        }, nodePermissions: function(node, perms) {
          if (FS.ignorePermissions) {
            return 0;
          }
          if (perms.indexOf("r") !== -1 && !(node.mode & 292)) {
            return 2;
          } else if (perms.indexOf("w") !== -1 && !(node.mode & 146)) {
            return 2;
          } else if (perms.indexOf("x") !== -1 && !(node.mode & 73)) {
            return 2;
          }
          return 0;
        }, mayLookup: function(dir) {
          var errCode = FS.nodePermissions(dir, "x");
          if (errCode)
            return errCode;
          if (!dir.node_ops.lookup)
            return 2;
          return 0;
        }, mayCreate: function(dir, name2) {
          try {
            var node = FS.lookupNode(dir, name2);
            return 20;
          } catch (e) {
          }
          return FS.nodePermissions(dir, "wx");
        }, mayDelete: function(dir, name2, isdir) {
          var node;
          try {
            node = FS.lookupNode(dir, name2);
          } catch (e) {
            return e.errno;
          }
          var errCode = FS.nodePermissions(dir, "wx");
          if (errCode) {
            return errCode;
          }
          if (isdir) {
            if (!FS.isDir(node.mode)) {
              return 54;
            }
            if (FS.isRoot(node) || FS.getPath(node) === FS.cwd()) {
              return 10;
            }
          } else {
            if (FS.isDir(node.mode)) {
              return 31;
            }
          }
          return 0;
        }, mayOpen: function(node, flags) {
          if (!node) {
            return 44;
          }
          if (FS.isLink(node.mode)) {
            return 32;
          } else if (FS.isDir(node.mode)) {
            if (FS.flagsToPermissionString(flags) !== "r" || flags & 512) {
              return 31;
            }
          }
          return FS.nodePermissions(node, FS.flagsToPermissionString(flags));
        }, MAX_OPEN_FDS: 4096, nextfd: function(fd_start, fd_end) {
          fd_start = fd_start || 0;
          fd_end = fd_end || FS.MAX_OPEN_FDS;
          for (var fd = fd_start; fd <= fd_end; fd++) {
            if (!FS.streams[fd]) {
              return fd;
            }
          }
          throw new FS.ErrnoError(33);
        }, getStream: function(fd) {
          return FS.streams[fd];
        }, createStream: function(stream, fd_start, fd_end) {
          if (!FS.FSStream) {
            FS.FSStream = function() {
            };
            FS.FSStream.prototype = { object: { get: function() {
              return this.node;
            }, set: function(val) {
              this.node = val;
            } }, isRead: { get: function() {
              return (this.flags & 2097155) !== 1;
            } }, isWrite: { get: function() {
              return (this.flags & 2097155) !== 0;
            } }, isAppend: { get: function() {
              return this.flags & 1024;
            } } };
          }
          var newStream = new FS.FSStream();
          for (var p in stream) {
            newStream[p] = stream[p];
          }
          stream = newStream;
          var fd = FS.nextfd(fd_start, fd_end);
          stream.fd = fd;
          FS.streams[fd] = stream;
          return stream;
        }, closeStream: function(fd) {
          FS.streams[fd] = null;
        }, chrdev_stream_ops: { open: function(stream) {
          var device = FS.getDevice(stream.node.rdev);
          stream.stream_ops = device.stream_ops;
          if (stream.stream_ops.open) {
            stream.stream_ops.open(stream);
          }
        }, llseek: function() {
          throw new FS.ErrnoError(70);
        } }, major: function(dev) {
          return dev >> 8;
        }, minor: function(dev) {
          return dev & 255;
        }, makedev: function(ma, mi) {
          return ma << 8 | mi;
        }, registerDevice: function(dev, ops) {
          FS.devices[dev] = { stream_ops: ops };
        }, getDevice: function(dev) {
          return FS.devices[dev];
        }, getMounts: function(mount) {
          var mounts = [];
          var check = [mount];
          while (check.length) {
            var m = check.pop();
            mounts.push(m);
            check.push.apply(check, m.mounts);
          }
          return mounts;
        }, syncfs: function(populate, callback) {
          if (typeof populate === "function") {
            callback = populate;
            populate = false;
          }
          FS.syncFSRequests++;
          if (FS.syncFSRequests > 1) {
            err("warning: " + FS.syncFSRequests + " FS.syncfs operations in flight at once, probably just doing extra work");
          }
          var mounts = FS.getMounts(FS.root.mount);
          var completed = 0;
          function doCallback(errCode) {
            FS.syncFSRequests--;
            return callback(errCode);
          }
          function done(errCode) {
            if (errCode) {
              if (!done.errored) {
                done.errored = true;
                return doCallback(errCode);
              }
              return;
            }
            if (++completed >= mounts.length) {
              doCallback(null);
            }
          }
          mounts.forEach(function(mount) {
            if (!mount.type.syncfs) {
              return done(null);
            }
            mount.type.syncfs(mount, populate, done);
          });
        }, mount: function(type, opts, mountpoint) {
          var root = mountpoint === "/";
          var pseudo = !mountpoint;
          var node;
          if (root && FS.root) {
            throw new FS.ErrnoError(10);
          } else if (!root && !pseudo) {
            var lookup = FS.lookupPath(mountpoint, { follow_mount: false });
            mountpoint = lookup.path;
            node = lookup.node;
            if (FS.isMountpoint(node)) {
              throw new FS.ErrnoError(10);
            }
            if (!FS.isDir(node.mode)) {
              throw new FS.ErrnoError(54);
            }
          }
          var mount = { type, opts, mountpoint, mounts: [] };
          var mountRoot = type.mount(mount);
          mountRoot.mount = mount;
          mount.root = mountRoot;
          if (root) {
            FS.root = mountRoot;
          } else if (node) {
            node.mounted = mount;
            if (node.mount) {
              node.mount.mounts.push(mount);
            }
          }
          return mountRoot;
        }, unmount: function(mountpoint) {
          var lookup = FS.lookupPath(mountpoint, { follow_mount: false });
          if (!FS.isMountpoint(lookup.node)) {
            throw new FS.ErrnoError(28);
          }
          var node = lookup.node;
          var mount = node.mounted;
          var mounts = FS.getMounts(mount);
          Object.keys(FS.nameTable).forEach(function(hash) {
            var current = FS.nameTable[hash];
            while (current) {
              var next = current.name_next;
              if (mounts.indexOf(current.mount) !== -1) {
                FS.destroyNode(current);
              }
              current = next;
            }
          });
          node.mounted = null;
          var idx = node.mount.mounts.indexOf(mount);
          node.mount.mounts.splice(idx, 1);
        }, lookup: function(parent, name2) {
          return parent.node_ops.lookup(parent, name2);
        }, mknod: function(path, mode, dev) {
          var lookup = FS.lookupPath(path, { parent: true });
          var parent = lookup.node;
          var name2 = PATH.basename(path);
          if (!name2 || name2 === "." || name2 === "..") {
            throw new FS.ErrnoError(28);
          }
          var errCode = FS.mayCreate(parent, name2);
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          if (!parent.node_ops.mknod) {
            throw new FS.ErrnoError(63);
          }
          return parent.node_ops.mknod(parent, name2, mode, dev);
        }, create: function(path, mode) {
          mode = mode !== void 0 ? mode : 438;
          mode &= 4095;
          mode |= 32768;
          return FS.mknod(path, mode, 0);
        }, mkdir: function(path, mode) {
          mode = mode !== void 0 ? mode : 511;
          mode &= 511 | 512;
          mode |= 16384;
          return FS.mknod(path, mode, 0);
        }, mkdirTree: function(path, mode) {
          var dirs = path.split("/");
          var d = "";
          for (var i = 0; i < dirs.length; ++i) {
            if (!dirs[i])
              continue;
            d += "/" + dirs[i];
            try {
              FS.mkdir(d, mode);
            } catch (e) {
              if (e.errno != 20)
                throw e;
            }
          }
        }, mkdev: function(path, mode, dev) {
          if (typeof dev === "undefined") {
            dev = mode;
            mode = 438;
          }
          mode |= 8192;
          return FS.mknod(path, mode, dev);
        }, symlink: function(oldpath, newpath) {
          if (!PATH_FS.resolve(oldpath)) {
            throw new FS.ErrnoError(44);
          }
          var lookup = FS.lookupPath(newpath, { parent: true });
          var parent = lookup.node;
          if (!parent) {
            throw new FS.ErrnoError(44);
          }
          var newname = PATH.basename(newpath);
          var errCode = FS.mayCreate(parent, newname);
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          if (!parent.node_ops.symlink) {
            throw new FS.ErrnoError(63);
          }
          return parent.node_ops.symlink(parent, newname, oldpath);
        }, rename: function(old_path, new_path) {
          var old_dirname = PATH.dirname(old_path);
          var new_dirname = PATH.dirname(new_path);
          var old_name = PATH.basename(old_path);
          var new_name = PATH.basename(new_path);
          var lookup, old_dir, new_dir;
          lookup = FS.lookupPath(old_path, { parent: true });
          old_dir = lookup.node;
          lookup = FS.lookupPath(new_path, { parent: true });
          new_dir = lookup.node;
          if (!old_dir || !new_dir)
            throw new FS.ErrnoError(44);
          if (old_dir.mount !== new_dir.mount) {
            throw new FS.ErrnoError(75);
          }
          var old_node = FS.lookupNode(old_dir, old_name);
          var relative = PATH_FS.relative(old_path, new_dirname);
          if (relative.charAt(0) !== ".") {
            throw new FS.ErrnoError(28);
          }
          relative = PATH_FS.relative(new_path, old_dirname);
          if (relative.charAt(0) !== ".") {
            throw new FS.ErrnoError(55);
          }
          var new_node;
          try {
            new_node = FS.lookupNode(new_dir, new_name);
          } catch (e) {
          }
          if (old_node === new_node) {
            return;
          }
          var isdir = FS.isDir(old_node.mode);
          var errCode = FS.mayDelete(old_dir, old_name, isdir);
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          errCode = new_node ? FS.mayDelete(new_dir, new_name, isdir) : FS.mayCreate(new_dir, new_name);
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          if (!old_dir.node_ops.rename) {
            throw new FS.ErrnoError(63);
          }
          if (FS.isMountpoint(old_node) || new_node && FS.isMountpoint(new_node)) {
            throw new FS.ErrnoError(10);
          }
          if (new_dir !== old_dir) {
            errCode = FS.nodePermissions(old_dir, "w");
            if (errCode) {
              throw new FS.ErrnoError(errCode);
            }
          }
          try {
            if (FS.trackingDelegate["willMovePath"]) {
              FS.trackingDelegate["willMovePath"](old_path, new_path);
            }
          } catch (e) {
            err("FS.trackingDelegate['willMovePath']('" + old_path + "', '" + new_path + "') threw an exception: " + e.message);
          }
          FS.hashRemoveNode(old_node);
          try {
            old_dir.node_ops.rename(old_node, new_dir, new_name);
          } catch (e) {
            throw e;
          } finally {
            FS.hashAddNode(old_node);
          }
          try {
            if (FS.trackingDelegate["onMovePath"])
              FS.trackingDelegate["onMovePath"](old_path, new_path);
          } catch (e) {
            err("FS.trackingDelegate['onMovePath']('" + old_path + "', '" + new_path + "') threw an exception: " + e.message);
          }
        }, rmdir: function(path) {
          var lookup = FS.lookupPath(path, { parent: true });
          var parent = lookup.node;
          var name2 = PATH.basename(path);
          var node = FS.lookupNode(parent, name2);
          var errCode = FS.mayDelete(parent, name2, true);
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          if (!parent.node_ops.rmdir) {
            throw new FS.ErrnoError(63);
          }
          if (FS.isMountpoint(node)) {
            throw new FS.ErrnoError(10);
          }
          try {
            if (FS.trackingDelegate["willDeletePath"]) {
              FS.trackingDelegate["willDeletePath"](path);
            }
          } catch (e) {
            err("FS.trackingDelegate['willDeletePath']('" + path + "') threw an exception: " + e.message);
          }
          parent.node_ops.rmdir(parent, name2);
          FS.destroyNode(node);
          try {
            if (FS.trackingDelegate["onDeletePath"])
              FS.trackingDelegate["onDeletePath"](path);
          } catch (e) {
            err("FS.trackingDelegate['onDeletePath']('" + path + "') threw an exception: " + e.message);
          }
        }, readdir: function(path) {
          var lookup = FS.lookupPath(path, { follow: true });
          var node = lookup.node;
          if (!node.node_ops.readdir) {
            throw new FS.ErrnoError(54);
          }
          return node.node_ops.readdir(node);
        }, unlink: function(path) {
          var lookup = FS.lookupPath(path, { parent: true });
          var parent = lookup.node;
          var name2 = PATH.basename(path);
          var node = FS.lookupNode(parent, name2);
          var errCode = FS.mayDelete(parent, name2, false);
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          if (!parent.node_ops.unlink) {
            throw new FS.ErrnoError(63);
          }
          if (FS.isMountpoint(node)) {
            throw new FS.ErrnoError(10);
          }
          try {
            if (FS.trackingDelegate["willDeletePath"]) {
              FS.trackingDelegate["willDeletePath"](path);
            }
          } catch (e) {
            err("FS.trackingDelegate['willDeletePath']('" + path + "') threw an exception: " + e.message);
          }
          parent.node_ops.unlink(parent, name2);
          FS.destroyNode(node);
          try {
            if (FS.trackingDelegate["onDeletePath"])
              FS.trackingDelegate["onDeletePath"](path);
          } catch (e) {
            err("FS.trackingDelegate['onDeletePath']('" + path + "') threw an exception: " + e.message);
          }
        }, readlink: function(path) {
          var lookup = FS.lookupPath(path);
          var link = lookup.node;
          if (!link) {
            throw new FS.ErrnoError(44);
          }
          if (!link.node_ops.readlink) {
            throw new FS.ErrnoError(28);
          }
          return PATH_FS.resolve(FS.getPath(link.parent), link.node_ops.readlink(link));
        }, stat: function(path, dontFollow) {
          var lookup = FS.lookupPath(path, { follow: !dontFollow });
          var node = lookup.node;
          if (!node) {
            throw new FS.ErrnoError(44);
          }
          if (!node.node_ops.getattr) {
            throw new FS.ErrnoError(63);
          }
          return node.node_ops.getattr(node);
        }, lstat: function(path) {
          return FS.stat(path, true);
        }, chmod: function(path, mode, dontFollow) {
          var node;
          if (typeof path === "string") {
            var lookup = FS.lookupPath(path, { follow: !dontFollow });
            node = lookup.node;
          } else {
            node = path;
          }
          if (!node.node_ops.setattr) {
            throw new FS.ErrnoError(63);
          }
          node.node_ops.setattr(node, { mode: mode & 4095 | node.mode & ~4095, timestamp: Date.now() });
        }, lchmod: function(path, mode) {
          FS.chmod(path, mode, true);
        }, fchmod: function(fd, mode) {
          var stream = FS.getStream(fd);
          if (!stream) {
            throw new FS.ErrnoError(8);
          }
          FS.chmod(stream.node, mode);
        }, chown: function(path, uid, gid, dontFollow) {
          var node;
          if (typeof path === "string") {
            var lookup = FS.lookupPath(path, { follow: !dontFollow });
            node = lookup.node;
          } else {
            node = path;
          }
          if (!node.node_ops.setattr) {
            throw new FS.ErrnoError(63);
          }
          node.node_ops.setattr(node, { timestamp: Date.now() });
        }, lchown: function(path, uid, gid) {
          FS.chown(path, uid, gid, true);
        }, fchown: function(fd, uid, gid) {
          var stream = FS.getStream(fd);
          if (!stream) {
            throw new FS.ErrnoError(8);
          }
          FS.chown(stream.node, uid, gid);
        }, truncate: function(path, len) {
          if (len < 0) {
            throw new FS.ErrnoError(28);
          }
          var node;
          if (typeof path === "string") {
            var lookup = FS.lookupPath(path, { follow: true });
            node = lookup.node;
          } else {
            node = path;
          }
          if (!node.node_ops.setattr) {
            throw new FS.ErrnoError(63);
          }
          if (FS.isDir(node.mode)) {
            throw new FS.ErrnoError(31);
          }
          if (!FS.isFile(node.mode)) {
            throw new FS.ErrnoError(28);
          }
          var errCode = FS.nodePermissions(node, "w");
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          node.node_ops.setattr(node, { size: len, timestamp: Date.now() });
        }, ftruncate: function(fd, len) {
          var stream = FS.getStream(fd);
          if (!stream) {
            throw new FS.ErrnoError(8);
          }
          if ((stream.flags & 2097155) === 0) {
            throw new FS.ErrnoError(28);
          }
          FS.truncate(stream.node, len);
        }, utime: function(path, atime, mtime) {
          var lookup = FS.lookupPath(path, { follow: true });
          var node = lookup.node;
          node.node_ops.setattr(node, { timestamp: Math.max(atime, mtime) });
        }, open: function(path, flags, mode, fd_start, fd_end) {
          if (path === "") {
            throw new FS.ErrnoError(44);
          }
          flags = typeof flags === "string" ? FS.modeStringToFlags(flags) : flags;
          mode = typeof mode === "undefined" ? 438 : mode;
          if (flags & 64) {
            mode = mode & 4095 | 32768;
          } else {
            mode = 0;
          }
          var node;
          if (typeof path === "object") {
            node = path;
          } else {
            path = PATH.normalize(path);
            try {
              var lookup = FS.lookupPath(path, { follow: !(flags & 131072) });
              node = lookup.node;
            } catch (e) {
            }
          }
          var created = false;
          if (flags & 64) {
            if (node) {
              if (flags & 128) {
                throw new FS.ErrnoError(20);
              }
            } else {
              node = FS.mknod(path, mode, 0);
              created = true;
            }
          }
          if (!node) {
            throw new FS.ErrnoError(44);
          }
          if (FS.isChrdev(node.mode)) {
            flags &= ~512;
          }
          if (flags & 65536 && !FS.isDir(node.mode)) {
            throw new FS.ErrnoError(54);
          }
          if (!created) {
            var errCode = FS.mayOpen(node, flags);
            if (errCode) {
              throw new FS.ErrnoError(errCode);
            }
          }
          if (flags & 512) {
            FS.truncate(node, 0);
          }
          flags &= ~(128 | 512 | 131072);
          var stream = FS.createStream({ node, path: FS.getPath(node), flags, seekable: true, position: 0, stream_ops: node.stream_ops, ungotten: [], error: false }, fd_start, fd_end);
          if (stream.stream_ops.open) {
            stream.stream_ops.open(stream);
          }
          if (Module["logReadFiles"] && !(flags & 1)) {
            if (!FS.readFiles)
              FS.readFiles = {};
            if (!(path in FS.readFiles)) {
              FS.readFiles[path] = 1;
              err("FS.trackingDelegate error on read file: " + path);
            }
          }
          try {
            if (FS.trackingDelegate["onOpenFile"]) {
              var trackingFlags = 0;
              if ((flags & 2097155) !== 1) {
                trackingFlags |= FS.tracking.openFlags.READ;
              }
              if ((flags & 2097155) !== 0) {
                trackingFlags |= FS.tracking.openFlags.WRITE;
              }
              FS.trackingDelegate["onOpenFile"](path, trackingFlags);
            }
          } catch (e) {
            err("FS.trackingDelegate['onOpenFile']('" + path + "', flags) threw an exception: " + e.message);
          }
          return stream;
        }, close: function(stream) {
          if (FS.isClosed(stream)) {
            throw new FS.ErrnoError(8);
          }
          if (stream.getdents)
            stream.getdents = null;
          try {
            if (stream.stream_ops.close) {
              stream.stream_ops.close(stream);
            }
          } catch (e) {
            throw e;
          } finally {
            FS.closeStream(stream.fd);
          }
          stream.fd = null;
        }, isClosed: function(stream) {
          return stream.fd === null;
        }, llseek: function(stream, offset, whence) {
          if (FS.isClosed(stream)) {
            throw new FS.ErrnoError(8);
          }
          if (!stream.seekable || !stream.stream_ops.llseek) {
            throw new FS.ErrnoError(70);
          }
          if (whence != 0 && whence != 1 && whence != 2) {
            throw new FS.ErrnoError(28);
          }
          stream.position = stream.stream_ops.llseek(stream, offset, whence);
          stream.ungotten = [];
          return stream.position;
        }, read: function(stream, buffer2, offset, length, position) {
          offset >>>= 0;
          if (length < 0 || position < 0) {
            throw new FS.ErrnoError(28);
          }
          if (FS.isClosed(stream)) {
            throw new FS.ErrnoError(8);
          }
          if ((stream.flags & 2097155) === 1) {
            throw new FS.ErrnoError(8);
          }
          if (FS.isDir(stream.node.mode)) {
            throw new FS.ErrnoError(31);
          }
          if (!stream.stream_ops.read) {
            throw new FS.ErrnoError(28);
          }
          var seeking = typeof position !== "undefined";
          if (!seeking) {
            position = stream.position;
          } else if (!stream.seekable) {
            throw new FS.ErrnoError(70);
          }
          var bytesRead = stream.stream_ops.read(stream, buffer2, offset, length, position);
          if (!seeking)
            stream.position += bytesRead;
          return bytesRead;
        }, write: function(stream, buffer2, offset, length, position, canOwn) {
          offset >>>= 0;
          if (length < 0 || position < 0) {
            throw new FS.ErrnoError(28);
          }
          if (FS.isClosed(stream)) {
            throw new FS.ErrnoError(8);
          }
          if ((stream.flags & 2097155) === 0) {
            throw new FS.ErrnoError(8);
          }
          if (FS.isDir(stream.node.mode)) {
            throw new FS.ErrnoError(31);
          }
          if (!stream.stream_ops.write) {
            throw new FS.ErrnoError(28);
          }
          if (stream.seekable && stream.flags & 1024) {
            FS.llseek(stream, 0, 2);
          }
          var seeking = typeof position !== "undefined";
          if (!seeking) {
            position = stream.position;
          } else if (!stream.seekable) {
            throw new FS.ErrnoError(70);
          }
          var bytesWritten = stream.stream_ops.write(stream, buffer2, offset, length, position, canOwn);
          if (!seeking)
            stream.position += bytesWritten;
          try {
            if (stream.path && FS.trackingDelegate["onWriteToFile"])
              FS.trackingDelegate["onWriteToFile"](stream.path);
          } catch (e) {
            err("FS.trackingDelegate['onWriteToFile']('" + stream.path + "') threw an exception: " + e.message);
          }
          return bytesWritten;
        }, allocate: function(stream, offset, length) {
          if (FS.isClosed(stream)) {
            throw new FS.ErrnoError(8);
          }
          if (offset < 0 || length <= 0) {
            throw new FS.ErrnoError(28);
          }
          if ((stream.flags & 2097155) === 0) {
            throw new FS.ErrnoError(8);
          }
          if (!FS.isFile(stream.node.mode) && !FS.isDir(stream.node.mode)) {
            throw new FS.ErrnoError(43);
          }
          if (!stream.stream_ops.allocate) {
            throw new FS.ErrnoError(138);
          }
          stream.stream_ops.allocate(stream, offset, length);
        }, mmap: function(stream, address, length, position, prot, flags) {
          address >>>= 0;
          if ((prot & 2) !== 0 && (flags & 2) === 0 && (stream.flags & 2097155) !== 2) {
            throw new FS.ErrnoError(2);
          }
          if ((stream.flags & 2097155) === 1) {
            throw new FS.ErrnoError(2);
          }
          if (!stream.stream_ops.mmap) {
            throw new FS.ErrnoError(43);
          }
          return stream.stream_ops.mmap(stream, address, length, position, prot, flags);
        }, msync: function(stream, buffer2, offset, length, mmapFlags) {
          offset >>>= 0;
          if (!stream || !stream.stream_ops.msync) {
            return 0;
          }
          return stream.stream_ops.msync(stream, buffer2, offset, length, mmapFlags);
        }, munmap: function(stream) {
          return 0;
        }, ioctl: function(stream, cmd, arg) {
          if (!stream.stream_ops.ioctl) {
            throw new FS.ErrnoError(59);
          }
          return stream.stream_ops.ioctl(stream, cmd, arg);
        }, readFile: function(path, opts) {
          opts = opts || {};
          opts.flags = opts.flags || 0;
          opts.encoding = opts.encoding || "binary";
          if (opts.encoding !== "utf8" && opts.encoding !== "binary") {
            throw new Error('Invalid encoding type "' + opts.encoding + '"');
          }
          var ret;
          var stream = FS.open(path, opts.flags);
          var stat = FS.stat(path);
          var length = stat.size;
          var buf = new Uint8Array(length);
          FS.read(stream, buf, 0, length, 0);
          if (opts.encoding === "utf8") {
            ret = UTF8ArrayToString(buf, 0);
          } else if (opts.encoding === "binary") {
            ret = buf;
          }
          FS.close(stream);
          return ret;
        }, writeFile: function(path, data, opts) {
          opts = opts || {};
          opts.flags = opts.flags || 577;
          var stream = FS.open(path, opts.flags, opts.mode);
          if (typeof data === "string") {
            var buf = new Uint8Array(lengthBytesUTF8(data) + 1);
            var actualNumBytes = stringToUTF8Array(data, buf, 0, buf.length);
            FS.write(stream, buf, 0, actualNumBytes, void 0, opts.canOwn);
          } else if (ArrayBuffer.isView(data)) {
            FS.write(stream, data, 0, data.byteLength, void 0, opts.canOwn);
          } else {
            throw new Error("Unsupported data type");
          }
          FS.close(stream);
        }, cwd: function() {
          return FS.currentPath;
        }, chdir: function(path) {
          var lookup = FS.lookupPath(path, { follow: true });
          if (lookup.node === null) {
            throw new FS.ErrnoError(44);
          }
          if (!FS.isDir(lookup.node.mode)) {
            throw new FS.ErrnoError(54);
          }
          var errCode = FS.nodePermissions(lookup.node, "x");
          if (errCode) {
            throw new FS.ErrnoError(errCode);
          }
          FS.currentPath = lookup.path;
        }, createDefaultDirectories: function() {
          FS.mkdir("/tmp");
          FS.mkdir("/home");
          FS.mkdir("/home/web_user");
        }, createDefaultDevices: function() {
          FS.mkdir("/dev");
          FS.registerDevice(FS.makedev(1, 3), { read: function() {
            return 0;
          }, write: function(stream, buffer2, offset, length, pos) {
            return length;
          } });
          FS.mkdev("/dev/null", FS.makedev(1, 3));
          TTY.register(FS.makedev(5, 0), TTY.default_tty_ops);
          TTY.register(FS.makedev(6, 0), TTY.default_tty1_ops);
          FS.mkdev("/dev/tty", FS.makedev(5, 0));
          FS.mkdev("/dev/tty1", FS.makedev(6, 0));
          var random_device = getRandomDevice();
          FS.createDevice("/dev", "random", random_device);
          FS.createDevice("/dev", "urandom", random_device);
          FS.mkdir("/dev/shm");
          FS.mkdir("/dev/shm/tmp");
        }, createSpecialDirectories: function() {
          FS.mkdir("/proc");
          FS.mkdir("/proc/self");
          FS.mkdir("/proc/self/fd");
          FS.mount({ mount: function() {
            var node = FS.createNode("/proc/self", "fd", 16384 | 511, 73);
            node.node_ops = { lookup: function(parent, name2) {
              var fd = +name2;
              var stream = FS.getStream(fd);
              if (!stream)
                throw new FS.ErrnoError(8);
              var ret = { parent: null, mount: { mountpoint: "fake" }, node_ops: { readlink: function() {
                return stream.path;
              } } };
              ret.parent = ret;
              return ret;
            } };
            return node;
          } }, {}, "/proc/self/fd");
        }, createStandardStreams: function() {
          if (Module["stdin"]) {
            FS.createDevice("/dev", "stdin", Module["stdin"]);
          } else {
            FS.symlink("/dev/tty", "/dev/stdin");
          }
          if (Module["stdout"]) {
            FS.createDevice("/dev", "stdout", null, Module["stdout"]);
          } else {
            FS.symlink("/dev/tty", "/dev/stdout");
          }
          if (Module["stderr"]) {
            FS.createDevice("/dev", "stderr", null, Module["stderr"]);
          } else {
            FS.symlink("/dev/tty1", "/dev/stderr");
          }
          var stdin = FS.open("/dev/stdin", 0);
          var stdout = FS.open("/dev/stdout", 1);
          var stderr = FS.open("/dev/stderr", 1);
        }, ensureErrnoError: function() {
          if (FS.ErrnoError)
            return;
          FS.ErrnoError = function ErrnoError(errno, node) {
            this.node = node;
            this.setErrno = function(errno2) {
              this.errno = errno2;
            };
            this.setErrno(errno);
            this.message = "FS error";
          };
          FS.ErrnoError.prototype = new Error();
          FS.ErrnoError.prototype.constructor = FS.ErrnoError;
          [44].forEach(function(code) {
            FS.genericErrors[code] = new FS.ErrnoError(code);
            FS.genericErrors[code].stack = "<generic error, no stack>";
          });
        }, staticInit: function() {
          FS.ensureErrnoError();
          FS.nameTable = new Array(4096);
          FS.mount(MEMFS, {}, "/");
          FS.createDefaultDirectories();
          FS.createDefaultDevices();
          FS.createSpecialDirectories();
          FS.filesystems = { "MEMFS": MEMFS };
        }, init: function(input, output, error) {
          FS.init.initialized = true;
          FS.ensureErrnoError();
          Module["stdin"] = input || Module["stdin"];
          Module["stdout"] = output || Module["stdout"];
          Module["stderr"] = error || Module["stderr"];
          FS.createStandardStreams();
        }, quit: function() {
          FS.init.initialized = false;
          var fflush = Module["_fflush"];
          if (fflush)
            fflush(0);
          for (var i = 0; i < FS.streams.length; i++) {
            var stream = FS.streams[i];
            if (!stream) {
              continue;
            }
            FS.close(stream);
          }
        }, getMode: function(canRead, canWrite) {
          var mode = 0;
          if (canRead)
            mode |= 292 | 73;
          if (canWrite)
            mode |= 146;
          return mode;
        }, findObject: function(path, dontResolveLastLink) {
          var ret = FS.analyzePath(path, dontResolveLastLink);
          if (ret.exists) {
            return ret.object;
          } else {
            return null;
          }
        }, analyzePath: function(path, dontResolveLastLink) {
          try {
            var lookup = FS.lookupPath(path, { follow: !dontResolveLastLink });
            path = lookup.path;
          } catch (e) {
          }
          var ret = { isRoot: false, exists: false, error: 0, name: null, path: null, object: null, parentExists: false, parentPath: null, parentObject: null };
          try {
            var lookup = FS.lookupPath(path, { parent: true });
            ret.parentExists = true;
            ret.parentPath = lookup.path;
            ret.parentObject = lookup.node;
            ret.name = PATH.basename(path);
            lookup = FS.lookupPath(path, { follow: !dontResolveLastLink });
            ret.exists = true;
            ret.path = lookup.path;
            ret.object = lookup.node;
            ret.name = lookup.node.name;
            ret.isRoot = lookup.path === "/";
          } catch (e) {
            ret.error = e.errno;
          }
          return ret;
        }, createPath: function(parent, path, canRead, canWrite) {
          parent = typeof parent === "string" ? parent : FS.getPath(parent);
          var parts = path.split("/").reverse();
          while (parts.length) {
            var part = parts.pop();
            if (!part)
              continue;
            var current = PATH.join2(parent, part);
            try {
              FS.mkdir(current);
            } catch (e) {
            }
            parent = current;
          }
          return current;
        }, createFile: function(parent, name2, properties, canRead, canWrite) {
          var path = PATH.join2(typeof parent === "string" ? parent : FS.getPath(parent), name2);
          var mode = FS.getMode(canRead, canWrite);
          return FS.create(path, mode);
        }, createDataFile: function(parent, name2, data, canRead, canWrite, canOwn) {
          var path = name2 ? PATH.join2(typeof parent === "string" ? parent : FS.getPath(parent), name2) : parent;
          var mode = FS.getMode(canRead, canWrite);
          var node = FS.create(path, mode);
          if (data) {
            if (typeof data === "string") {
              var arr = new Array(data.length);
              for (var i = 0, len = data.length; i < len; ++i)
                arr[i] = data.charCodeAt(i);
              data = arr;
            }
            FS.chmod(node, mode | 146);
            var stream = FS.open(node, 577);
            FS.write(stream, data, 0, data.length, 0, canOwn);
            FS.close(stream);
            FS.chmod(node, mode);
          }
          return node;
        }, createDevice: function(parent, name2, input, output) {
          var path = PATH.join2(typeof parent === "string" ? parent : FS.getPath(parent), name2);
          var mode = FS.getMode(!!input, !!output);
          if (!FS.createDevice.major)
            FS.createDevice.major = 64;
          var dev = FS.makedev(FS.createDevice.major++, 0);
          FS.registerDevice(dev, { open: function(stream) {
            stream.seekable = false;
          }, close: function(stream) {
            if (output && output.buffer && output.buffer.length) {
              output(10);
            }
          }, read: function(stream, buffer2, offset, length, pos) {
            var bytesRead = 0;
            for (var i = 0; i < length; i++) {
              var result;
              try {
                result = input();
              } catch (e) {
                throw new FS.ErrnoError(29);
              }
              if (result === void 0 && bytesRead === 0) {
                throw new FS.ErrnoError(6);
              }
              if (result === null || result === void 0)
                break;
              bytesRead++;
              buffer2[offset + i] = result;
            }
            if (bytesRead) {
              stream.node.timestamp = Date.now();
            }
            return bytesRead;
          }, write: function(stream, buffer2, offset, length, pos) {
            for (var i = 0; i < length; i++) {
              try {
                output(buffer2[offset + i]);
              } catch (e) {
                throw new FS.ErrnoError(29);
              }
            }
            if (length) {
              stream.node.timestamp = Date.now();
            }
            return i;
          } });
          return FS.mkdev(path, mode, dev);
        }, forceLoadFile: function(obj) {
          if (obj.isDevice || obj.isFolder || obj.link || obj.contents)
            return true;
          if (typeof XMLHttpRequest !== "undefined") {
            throw new Error("Lazy loading should have been performed (contents set) in createLazyFile, but it was not. Lazy loading only works in web workers. Use --embed-file or --preload-file in emcc on the main thread.");
          } else if (read_) {
            try {
              obj.contents = intArrayFromString(read_(obj.url), true);
              obj.usedBytes = obj.contents.length;
            } catch (e) {
              throw new FS.ErrnoError(29);
            }
          } else {
            throw new Error("Cannot load without read() or XMLHttpRequest.");
          }
        }, createLazyFile: function(parent, name2, url, canRead, canWrite) {
          function LazyUint8Array() {
            this.lengthKnown = false;
            this.chunks = [];
          }
          LazyUint8Array.prototype.get = function LazyUint8Array_get(idx) {
            if (idx > this.length - 1 || idx < 0) {
              return void 0;
            }
            var chunkOffset = idx % this.chunkSize;
            var chunkNum = idx / this.chunkSize | 0;
            return this.getter(chunkNum)[chunkOffset];
          };
          LazyUint8Array.prototype.setDataGetter = function LazyUint8Array_setDataGetter(getter) {
            this.getter = getter;
          };
          LazyUint8Array.prototype.cacheLength = function LazyUint8Array_cacheLength() {
            var xhr = new XMLHttpRequest();
            xhr.open("HEAD", url, false);
            xhr.send(null);
            if (!(xhr.status >= 200 && xhr.status < 300 || xhr.status === 304))
              throw new Error("Couldn't load " + url + ". Status: " + xhr.status);
            var datalength = Number(xhr.getResponseHeader("Content-length"));
            var header;
            var hasByteServing = (header = xhr.getResponseHeader("Accept-Ranges")) && header === "bytes";
            var usesGzip = (header = xhr.getResponseHeader("Content-Encoding")) && header === "gzip";
            var chunkSize = 1024 * 1024;
            if (!hasByteServing)
              chunkSize = datalength;
            var doXHR = function(from, to) {
              if (from > to)
                throw new Error("invalid range (" + from + ", " + to + ") or no bytes requested!");
              if (to > datalength - 1)
                throw new Error("only " + datalength + " bytes available! programmer error!");
              var xhr2 = new XMLHttpRequest();
              xhr2.open("GET", url, false);
              if (datalength !== chunkSize)
                xhr2.setRequestHeader("Range", "bytes=" + from + "-" + to);
              if (typeof Uint8Array != "undefined")
                xhr2.responseType = "arraybuffer";
              if (xhr2.overrideMimeType) {
                xhr2.overrideMimeType("text/plain; charset=x-user-defined");
              }
              xhr2.send(null);
              if (!(xhr2.status >= 200 && xhr2.status < 300 || xhr2.status === 304))
                throw new Error("Couldn't load " + url + ". Status: " + xhr2.status);
              if (xhr2.response !== void 0) {
                return new Uint8Array(xhr2.response || []);
              } else {
                return intArrayFromString(xhr2.responseText || "", true);
              }
            };
            var lazyArray2 = this;
            lazyArray2.setDataGetter(function(chunkNum) {
              var start = chunkNum * chunkSize;
              var end = (chunkNum + 1) * chunkSize - 1;
              end = Math.min(end, datalength - 1);
              if (typeof lazyArray2.chunks[chunkNum] === "undefined") {
                lazyArray2.chunks[chunkNum] = doXHR(start, end);
              }
              if (typeof lazyArray2.chunks[chunkNum] === "undefined")
                throw new Error("doXHR failed!");
              return lazyArray2.chunks[chunkNum];
            });
            if (usesGzip || !datalength) {
              chunkSize = datalength = 1;
              datalength = this.getter(0).length;
              chunkSize = datalength;
              out("LazyFiles on gzip forces download of the whole file when length is accessed");
            }
            this._length = datalength;
            this._chunkSize = chunkSize;
            this.lengthKnown = true;
          };
          if (typeof XMLHttpRequest !== "undefined") {
            if (!ENVIRONMENT_IS_WORKER)
              throw "Cannot do synchronous binary XHRs outside webworkers in modern browsers. Use --embed-file or --preload-file in emcc";
            var lazyArray = new LazyUint8Array();
            Object.defineProperties(lazyArray, { length: { get: function() {
              if (!this.lengthKnown) {
                this.cacheLength();
              }
              return this._length;
            } }, chunkSize: { get: function() {
              if (!this.lengthKnown) {
                this.cacheLength();
              }
              return this._chunkSize;
            } } });
            var properties = { isDevice: false, contents: lazyArray };
          } else {
            var properties = { isDevice: false, url };
          }
          var node = FS.createFile(parent, name2, properties, canRead, canWrite);
          if (properties.contents) {
            node.contents = properties.contents;
          } else if (properties.url) {
            node.contents = null;
            node.url = properties.url;
          }
          Object.defineProperties(node, { usedBytes: { get: function() {
            return this.contents.length;
          } } });
          var stream_ops = {};
          var keys = Object.keys(node.stream_ops);
          keys.forEach(function(key2) {
            var fn = node.stream_ops[key2];
            stream_ops[key2] = function forceLoadLazyFile() {
              FS.forceLoadFile(node);
              return fn.apply(null, arguments);
            };
          });
          stream_ops.read = function stream_ops_read(stream, buffer2, offset, length, position) {
            FS.forceLoadFile(node);
            var contents = stream.node.contents;
            if (position >= contents.length)
              return 0;
            var size = Math.min(contents.length - position, length);
            if (contents.slice) {
              for (var i = 0; i < size; i++) {
                buffer2[offset + i] = contents[position + i];
              }
            } else {
              for (var i = 0; i < size; i++) {
                buffer2[offset + i] = contents.get(position + i);
              }
            }
            return size;
          };
          node.stream_ops = stream_ops;
          return node;
        }, createPreloadedFile: function(parent, name2, url, canRead, canWrite, onload, onerror, dontCreateFile, canOwn, preFinish) {
          Browser.init();
          var fullname = name2 ? PATH_FS.resolve(PATH.join2(parent, name2)) : parent;
          var dep = getUniqueRunDependency("cp " + fullname);
          function processData(byteArray) {
            function finish(byteArray2) {
              if (preFinish)
                preFinish();
              if (!dontCreateFile) {
                FS.createDataFile(parent, name2, byteArray2, canRead, canWrite, canOwn);
              }
              if (onload)
                onload();
              removeRunDependency(dep);
            }
            var handled = false;
            Module["preloadPlugins"].forEach(function(plugin) {
              if (handled)
                return;
              if (plugin["canHandle"](fullname)) {
                plugin["handle"](byteArray, fullname, finish, function() {
                  if (onerror)
                    onerror();
                  removeRunDependency(dep);
                });
                handled = true;
              }
            });
            if (!handled)
              finish(byteArray);
          }
          addRunDependency(dep);
          if (typeof url == "string") {
            Browser.asyncLoad(url, function(byteArray) {
              processData(byteArray);
            }, onerror);
          } else {
            processData(url);
          }
        }, indexedDB: function() {
          return window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB;
        }, DB_NAME: function() {
          return "EM_FS_" + window.location.pathname;
        }, DB_VERSION: 20, DB_STORE_NAME: "FILE_DATA", saveFilesToDB: function(paths, onload, onerror) {
          onload = onload || function() {
          };
          onerror = onerror || function() {
          };
          var indexedDB = FS.indexedDB();
          try {
            var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION);
          } catch (e) {
            return onerror(e);
          }
          openRequest.onupgradeneeded = function openRequest_onupgradeneeded() {
            out("creating db");
            var db = openRequest.result;
            db.createObjectStore(FS.DB_STORE_NAME);
          };
          openRequest.onsuccess = function openRequest_onsuccess() {
            var db = openRequest.result;
            var transaction = db.transaction([FS.DB_STORE_NAME], "readwrite");
            var files = transaction.objectStore(FS.DB_STORE_NAME);
            var ok = 0, fail = 0, total = paths.length;
            function finish() {
              if (fail == 0)
                onload();
              else
                onerror();
            }
            paths.forEach(function(path) {
              var putRequest = files.put(FS.analyzePath(path).object.contents, path);
              putRequest.onsuccess = function putRequest_onsuccess() {
                ok++;
                if (ok + fail == total)
                  finish();
              };
              putRequest.onerror = function putRequest_onerror() {
                fail++;
                if (ok + fail == total)
                  finish();
              };
            });
            transaction.onerror = onerror;
          };
          openRequest.onerror = onerror;
        }, loadFilesFromDB: function(paths, onload, onerror) {
          onload = onload || function() {
          };
          onerror = onerror || function() {
          };
          var indexedDB = FS.indexedDB();
          try {
            var openRequest = indexedDB.open(FS.DB_NAME(), FS.DB_VERSION);
          } catch (e) {
            return onerror(e);
          }
          openRequest.onupgradeneeded = onerror;
          openRequest.onsuccess = function openRequest_onsuccess() {
            var db = openRequest.result;
            try {
              var transaction = db.transaction([FS.DB_STORE_NAME], "readonly");
            } catch (e) {
              onerror(e);
              return;
            }
            var files = transaction.objectStore(FS.DB_STORE_NAME);
            var ok = 0, fail = 0, total = paths.length;
            function finish() {
              if (fail == 0)
                onload();
              else
                onerror();
            }
            paths.forEach(function(path) {
              var getRequest = files.get(path);
              getRequest.onsuccess = function getRequest_onsuccess() {
                if (FS.analyzePath(path).exists) {
                  FS.unlink(path);
                }
                FS.createDataFile(PATH.dirname(path), PATH.basename(path), getRequest.result, true, true, true);
                ok++;
                if (ok + fail == total)
                  finish();
              };
              getRequest.onerror = function getRequest_onerror() {
                fail++;
                if (ok + fail == total)
                  finish();
              };
            });
            transaction.onerror = onerror;
          };
          openRequest.onerror = onerror;
        } };
        var SYSCALLS = { mappings: {}, DEFAULT_POLLMASK: 5, umask: 511, calculateAt: function(dirfd, path) {
          if (path[0] !== "/") {
            var dir;
            if (dirfd === -100) {
              dir = FS.cwd();
            } else {
              var dirstream = FS.getStream(dirfd);
              if (!dirstream)
                throw new FS.ErrnoError(8);
              dir = dirstream.path;
            }
            path = PATH.join2(dir, path);
          }
          return path;
        }, doStat: function(func, path, buf) {
          try {
            var stat = func(path);
          } catch (e) {
            if (e && e.node && PATH.normalize(path) !== PATH.normalize(FS.getPath(e.node))) {
              return -54;
            }
            throw e;
          }
          HEAP32[buf >>> 2] = stat.dev;
          HEAP32[buf + 4 >>> 2] = 0;
          HEAP32[buf + 8 >>> 2] = stat.ino;
          HEAP32[buf + 12 >>> 2] = stat.mode;
          HEAP32[buf + 16 >>> 2] = stat.nlink;
          HEAP32[buf + 20 >>> 2] = stat.uid;
          HEAP32[buf + 24 >>> 2] = stat.gid;
          HEAP32[buf + 28 >>> 2] = stat.rdev;
          HEAP32[buf + 32 >>> 2] = 0;
          tempI64 = [stat.size >>> 0, (tempDouble = stat.size, +Math.abs(tempDouble) >= 1 ? tempDouble > 0 ? (Math.min(+Math.floor(tempDouble / 4294967296), 4294967295) | 0) >>> 0 : ~~+Math.ceil((tempDouble - +(~~tempDouble >>> 0)) / 4294967296) >>> 0 : 0)], HEAP32[buf + 40 >>> 2] = tempI64[0], HEAP32[buf + 44 >>> 2] = tempI64[1];
          HEAP32[buf + 48 >>> 2] = 4096;
          HEAP32[buf + 52 >>> 2] = stat.blocks;
          HEAP32[buf + 56 >>> 2] = stat.atime.getTime() / 1e3 | 0;
          HEAP32[buf + 60 >>> 2] = 0;
          HEAP32[buf + 64 >>> 2] = stat.mtime.getTime() / 1e3 | 0;
          HEAP32[buf + 68 >>> 2] = 0;
          HEAP32[buf + 72 >>> 2] = stat.ctime.getTime() / 1e3 | 0;
          HEAP32[buf + 76 >>> 2] = 0;
          tempI64 = [stat.ino >>> 0, (tempDouble = stat.ino, +Math.abs(tempDouble) >= 1 ? tempDouble > 0 ? (Math.min(+Math.floor(tempDouble / 4294967296), 4294967295) | 0) >>> 0 : ~~+Math.ceil((tempDouble - +(~~tempDouble >>> 0)) / 4294967296) >>> 0 : 0)], HEAP32[buf + 80 >>> 2] = tempI64[0], HEAP32[buf + 84 >>> 2] = tempI64[1];
          return 0;
        }, doMsync: function(addr, stream, len, flags, offset) {
          var buffer2 = HEAPU8.slice(addr, addr + len);
          FS.msync(stream, buffer2, offset, len, flags);
        }, doMkdir: function(path, mode) {
          path = PATH.normalize(path);
          if (path[path.length - 1] === "/")
            path = path.slice(0, path.length - 1);
          FS.mkdir(path, mode, 0);
          return 0;
        }, doMknod: function(path, mode, dev) {
          switch (mode & 61440) {
            case 32768:
            case 8192:
            case 24576:
            case 4096:
            case 49152:
              break;
            default:
              return -28;
          }
          FS.mknod(path, mode, dev);
          return 0;
        }, doReadlink: function(path, buf, bufsize) {
          if (bufsize <= 0)
            return -28;
          var ret = FS.readlink(path);
          var len = Math.min(bufsize, lengthBytesUTF8(ret));
          var endChar = HEAP8[buf + len >>> 0];
          stringToUTF8(ret, buf, bufsize + 1);
          HEAP8[buf + len >>> 0] = endChar;
          return len;
        }, doAccess: function(path, amode) {
          if (amode & ~7) {
            return -28;
          }
          var node;
          var lookup = FS.lookupPath(path, { follow: true });
          node = lookup.node;
          if (!node) {
            return -44;
          }
          var perms = "";
          if (amode & 4)
            perms += "r";
          if (amode & 2)
            perms += "w";
          if (amode & 1)
            perms += "x";
          if (perms && FS.nodePermissions(node, perms)) {
            return -2;
          }
          return 0;
        }, doDup: function(path, flags, suggestFD) {
          var suggest = FS.getStream(suggestFD);
          if (suggest)
            FS.close(suggest);
          return FS.open(path, flags, 0, suggestFD, suggestFD).fd;
        }, doReadv: function(stream, iov, iovcnt, offset) {
          var ret = 0;
          for (var i = 0; i < iovcnt; i++) {
            var ptr = HEAP32[iov + i * 8 >>> 2];
            var len = HEAP32[iov + (i * 8 + 4) >>> 2];
            var curr = FS.read(stream, HEAP8, ptr, len, offset);
            if (curr < 0)
              return -1;
            ret += curr;
            if (curr < len)
              break;
          }
          return ret;
        }, doWritev: function(stream, iov, iovcnt, offset) {
          var ret = 0;
          for (var i = 0; i < iovcnt; i++) {
            var ptr = HEAP32[iov + i * 8 >>> 2];
            var len = HEAP32[iov + (i * 8 + 4) >>> 2];
            var curr = FS.write(stream, HEAP8, ptr, len, offset);
            if (curr < 0)
              return -1;
            ret += curr;
          }
          return ret;
        }, varargs: void 0, get: function() {
          SYSCALLS.varargs += 4;
          var ret = HEAP32[SYSCALLS.varargs - 4 >>> 2];
          return ret;
        }, getStr: function(ptr) {
          var ret = UTF8ToString(ptr);
          return ret;
        }, getStreamFromFD: function(fd) {
          var stream = FS.getStream(fd);
          if (!stream)
            throw new FS.ErrnoError(8);
          return stream;
        }, get64: function(low, high) {
          return low;
        } };
        function ___sys_fcntl64(fd, cmd, varargs) {
          SYSCALLS.varargs = varargs;
          try {
            var stream = SYSCALLS.getStreamFromFD(fd);
            switch (cmd) {
              case 0: {
                var arg = SYSCALLS.get();
                if (arg < 0) {
                  return -28;
                }
                var newStream;
                newStream = FS.open(stream.path, stream.flags, 0, arg);
                return newStream.fd;
              }
              case 1:
              case 2:
                return 0;
              case 3:
                return stream.flags;
              case 4: {
                var arg = SYSCALLS.get();
                stream.flags |= arg;
                return 0;
              }
              case 12: {
                var arg = SYSCALLS.get();
                var offset = 0;
                HEAP16[arg + offset >>> 1] = 2;
                return 0;
              }
              case 13:
              case 14:
                return 0;
              case 16:
              case 8:
                return -28;
              case 9:
                setErrNo(28);
                return -1;
              default: {
                return -28;
              }
            }
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return -e.errno;
          }
        }
        function ___sys_ioctl(fd, op, varargs) {
          SYSCALLS.varargs = varargs;
          try {
            var stream = SYSCALLS.getStreamFromFD(fd);
            switch (op) {
              case 21509:
              case 21505: {
                if (!stream.tty)
                  return -59;
                return 0;
              }
              case 21510:
              case 21511:
              case 21512:
              case 21506:
              case 21507:
              case 21508: {
                if (!stream.tty)
                  return -59;
                return 0;
              }
              case 21519: {
                if (!stream.tty)
                  return -59;
                var argp = SYSCALLS.get();
                HEAP32[argp >>> 2] = 0;
                return 0;
              }
              case 21520: {
                if (!stream.tty)
                  return -59;
                return -28;
              }
              case 21531: {
                var argp = SYSCALLS.get();
                return FS.ioctl(stream, op, argp);
              }
              case 21523: {
                if (!stream.tty)
                  return -59;
                return 0;
              }
              case 21524: {
                if (!stream.tty)
                  return -59;
                return 0;
              }
              default:
                abort("bad ioctl syscall " + op);
            }
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return -e.errno;
          }
        }
        function ___sys_open(path, flags, varargs) {
          SYSCALLS.varargs = varargs;
          try {
            var pathname = SYSCALLS.getStr(path);
            var mode = SYSCALLS.get();
            var stream = FS.open(pathname, flags, mode);
            return stream.fd;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return -e.errno;
          }
        }
        var tupleRegistrations = {};
        function runDestructors(destructors) {
          while (destructors.length) {
            var ptr = destructors.pop();
            var del = destructors.pop();
            del(ptr);
          }
        }
        function simpleReadValueFromPointer(pointer) {
          return this["fromWireType"](HEAPU32[pointer >>> 2]);
        }
        var awaitingDependencies = {};
        var registeredTypes = {};
        var typeDependencies = {};
        var char_0 = 48;
        var char_9 = 57;
        function makeLegalFunctionName(name2) {
          if (name2 === void 0) {
            return "_unknown";
          }
          name2 = name2.replace(/[^a-zA-Z0-9_]/g, "$");
          var f = name2.charCodeAt(0);
          if (f >= char_0 && f <= char_9) {
            return "_" + name2;
          } else {
            return name2;
          }
        }
        function createNamedFunction(name2, body) {
          name2 = makeLegalFunctionName(name2);
          return new Function("body", "return function " + name2 + '() {\n    "use strict";    return body.apply(this, arguments);\n};\n')(body);
        }
        function extendError(baseErrorType, errorName) {
          var errorClass = createNamedFunction(errorName, function(message) {
            this.name = errorName;
            this.message = message;
            var stack = new Error(message).stack;
            if (stack !== void 0) {
              this.stack = this.toString() + "\n" + stack.replace(/^Error(:[^\n]*)?\n/, "");
            }
          });
          errorClass.prototype = Object.create(baseErrorType.prototype);
          errorClass.prototype.constructor = errorClass;
          errorClass.prototype.toString = function() {
            if (this.message === void 0) {
              return this.name;
            } else {
              return this.name + ": " + this.message;
            }
          };
          return errorClass;
        }
        var InternalError = void 0;
        function throwInternalError(message) {
          throw new InternalError(message);
        }
        function whenDependentTypesAreResolved(myTypes, dependentTypes, getTypeConverters) {
          myTypes.forEach(function(type) {
            typeDependencies[type] = dependentTypes;
          });
          function onComplete(typeConverters2) {
            var myTypeConverters = getTypeConverters(typeConverters2);
            if (myTypeConverters.length !== myTypes.length) {
              throwInternalError("Mismatched type converter count");
            }
            for (var i = 0; i < myTypes.length; ++i) {
              registerType(myTypes[i], myTypeConverters[i]);
            }
          }
          var typeConverters = new Array(dependentTypes.length);
          var unregisteredTypes = [];
          var registered = 0;
          dependentTypes.forEach(function(dt, i) {
            if (registeredTypes.hasOwnProperty(dt)) {
              typeConverters[i] = registeredTypes[dt];
            } else {
              unregisteredTypes.push(dt);
              if (!awaitingDependencies.hasOwnProperty(dt)) {
                awaitingDependencies[dt] = [];
              }
              awaitingDependencies[dt].push(function() {
                typeConverters[i] = registeredTypes[dt];
                ++registered;
                if (registered === unregisteredTypes.length) {
                  onComplete(typeConverters);
                }
              });
            }
          });
          if (unregisteredTypes.length === 0) {
            onComplete(typeConverters);
          }
        }
        function __embind_finalize_value_array(rawTupleType) {
          var reg = tupleRegistrations[rawTupleType];
          delete tupleRegistrations[rawTupleType];
          var elements = reg.elements;
          var elementsLength = elements.length;
          var elementTypes = elements.map(function(elt) {
            return elt.getterReturnType;
          }).concat(elements.map(function(elt) {
            return elt.setterArgumentType;
          }));
          var rawConstructor = reg.rawConstructor;
          var rawDestructor = reg.rawDestructor;
          whenDependentTypesAreResolved([rawTupleType], elementTypes, function(elementTypes2) {
            elements.forEach(function(elt, i) {
              var getterReturnType = elementTypes2[i];
              var getter = elt.getter;
              var getterContext = elt.getterContext;
              var setterArgumentType = elementTypes2[i + elementsLength];
              var setter = elt.setter;
              var setterContext = elt.setterContext;
              elt.read = function(ptr) {
                return getterReturnType["fromWireType"](getter(getterContext, ptr));
              };
              elt.write = function(ptr, o) {
                var destructors = [];
                setter(setterContext, ptr, setterArgumentType["toWireType"](destructors, o));
                runDestructors(destructors);
              };
            });
            return [{ name: reg.name, "fromWireType": function(ptr) {
              var rv = new Array(elementsLength);
              for (var i = 0; i < elementsLength; ++i) {
                rv[i] = elements[i].read(ptr);
              }
              rawDestructor(ptr);
              return rv;
            }, "toWireType": function(destructors, o) {
              if (elementsLength !== o.length) {
                throw new TypeError("Incorrect number of tuple elements for " + reg.name + ": expected=" + elementsLength + ", actual=" + o.length);
              }
              var ptr = rawConstructor();
              for (var i = 0; i < elementsLength; ++i) {
                elements[i].write(ptr, o[i]);
              }
              if (destructors !== null) {
                destructors.push(rawDestructor, ptr);
              }
              return ptr;
            }, "argPackAdvance": 8, "readValueFromPointer": simpleReadValueFromPointer, destructorFunction: rawDestructor }];
          });
        }
        var structRegistrations = {};
        function __embind_finalize_value_object(structType) {
          var reg = structRegistrations[structType];
          delete structRegistrations[structType];
          var rawConstructor = reg.rawConstructor;
          var rawDestructor = reg.rawDestructor;
          var fieldRecords = reg.fields;
          var fieldTypes = fieldRecords.map(function(field) {
            return field.getterReturnType;
          }).concat(fieldRecords.map(function(field) {
            return field.setterArgumentType;
          }));
          whenDependentTypesAreResolved([structType], fieldTypes, function(fieldTypes2) {
            var fields = {};
            fieldRecords.forEach(function(field, i) {
              var fieldName = field.fieldName;
              var getterReturnType = fieldTypes2[i];
              var getter = field.getter;
              var getterContext = field.getterContext;
              var setterArgumentType = fieldTypes2[i + fieldRecords.length];
              var setter = field.setter;
              var setterContext = field.setterContext;
              fields[fieldName] = { read: function(ptr) {
                return getterReturnType["fromWireType"](getter(getterContext, ptr));
              }, write: function(ptr, o) {
                var destructors = [];
                setter(setterContext, ptr, setterArgumentType["toWireType"](destructors, o));
                runDestructors(destructors);
              } };
            });
            return [{ name: reg.name, "fromWireType": function(ptr) {
              var rv = {};
              for (var i in fields) {
                rv[i] = fields[i].read(ptr);
              }
              rawDestructor(ptr);
              return rv;
            }, "toWireType": function(destructors, o) {
              for (var fieldName in fields) {
                if (!(fieldName in o)) {
                  throw new TypeError('Missing field:  "' + fieldName + '"');
                }
              }
              var ptr = rawConstructor();
              for (fieldName in fields) {
                fields[fieldName].write(ptr, o[fieldName]);
              }
              if (destructors !== null) {
                destructors.push(rawDestructor, ptr);
              }
              return ptr;
            }, "argPackAdvance": 8, "readValueFromPointer": simpleReadValueFromPointer, destructorFunction: rawDestructor }];
          });
        }
        function getShiftFromSize(size) {
          switch (size) {
            case 1:
              return 0;
            case 2:
              return 1;
            case 4:
              return 2;
            case 8:
              return 3;
            default:
              throw new TypeError("Unknown type size: " + size);
          }
        }
        function embind_init_charCodes() {
          var codes = new Array(256);
          for (var i = 0; i < 256; ++i) {
            codes[i] = String.fromCharCode(i);
          }
          embind_charCodes = codes;
        }
        var embind_charCodes = void 0;
        function readLatin1String(ptr) {
          var ret = "";
          var c = ptr;
          while (HEAPU8[c >>> 0]) {
            ret += embind_charCodes[HEAPU8[c++ >>> 0]];
          }
          return ret;
        }
        var BindingError = void 0;
        function throwBindingError(message) {
          throw new BindingError(message);
        }
        function registerType(rawType, registeredInstance, options) {
          options = options || {};
          if (!("argPackAdvance" in registeredInstance)) {
            throw new TypeError("registerType registeredInstance requires argPackAdvance");
          }
          var name2 = registeredInstance.name;
          if (!rawType) {
            throwBindingError('type "' + name2 + '" must have a positive integer typeid pointer');
          }
          if (registeredTypes.hasOwnProperty(rawType)) {
            if (options.ignoreDuplicateRegistrations) {
              return;
            } else {
              throwBindingError("Cannot register type '" + name2 + "' twice");
            }
          }
          registeredTypes[rawType] = registeredInstance;
          delete typeDependencies[rawType];
          if (awaitingDependencies.hasOwnProperty(rawType)) {
            var callbacks = awaitingDependencies[rawType];
            delete awaitingDependencies[rawType];
            callbacks.forEach(function(cb) {
              cb();
            });
          }
        }
        function __embind_register_bool(rawType, name2, size, trueValue, falseValue) {
          var shift = getShiftFromSize(size);
          name2 = readLatin1String(name2);
          registerType(rawType, { name: name2, "fromWireType": function(wt) {
            return !!wt;
          }, "toWireType": function(destructors, o) {
            return o ? trueValue : falseValue;
          }, "argPackAdvance": 8, "readValueFromPointer": function(pointer) {
            var heap;
            if (size === 1) {
              heap = HEAP8;
            } else if (size === 2) {
              heap = HEAP16;
            } else if (size === 4) {
              heap = HEAP32;
            } else {
              throw new TypeError("Unknown boolean type size: " + name2);
            }
            return this["fromWireType"](heap[pointer >>> shift]);
          }, destructorFunction: null });
        }
        function ClassHandle_isAliasOf(other) {
          if (!(this instanceof ClassHandle)) {
            return false;
          }
          if (!(other instanceof ClassHandle)) {
            return false;
          }
          var leftClass = this.$$.ptrType.registeredClass;
          var left = this.$$.ptr;
          var rightClass = other.$$.ptrType.registeredClass;
          var right = other.$$.ptr;
          while (leftClass.baseClass) {
            left = leftClass.upcast(left);
            leftClass = leftClass.baseClass;
          }
          while (rightClass.baseClass) {
            right = rightClass.upcast(right);
            rightClass = rightClass.baseClass;
          }
          return leftClass === rightClass && left === right;
        }
        function shallowCopyInternalPointer(o) {
          return { count: o.count, deleteScheduled: o.deleteScheduled, preservePointerOnDelete: o.preservePointerOnDelete, ptr: o.ptr, ptrType: o.ptrType, smartPtr: o.smartPtr, smartPtrType: o.smartPtrType };
        }
        function throwInstanceAlreadyDeleted(obj) {
          function getInstanceTypeName(handle) {
            return handle.$$.ptrType.registeredClass.name;
          }
          throwBindingError(getInstanceTypeName(obj) + " instance already deleted");
        }
        var finalizationGroup = false;
        function detachFinalizer(handle) {
        }
        function runDestructor($$) {
          if ($$.smartPtr) {
            $$.smartPtrType.rawDestructor($$.smartPtr);
          } else {
            $$.ptrType.registeredClass.rawDestructor($$.ptr);
          }
        }
        function releaseClassHandle($$) {
          $$.count.value -= 1;
          var toDelete = $$.count.value === 0;
          if (toDelete) {
            runDestructor($$);
          }
        }
        function attachFinalizer(handle) {
          if (typeof FinalizationGroup === "undefined") {
            attachFinalizer = function(handle2) {
              return handle2;
            };
            return handle;
          }
          finalizationGroup = new FinalizationGroup(function(iter) {
            for (var result = iter.next(); !result.done; result = iter.next()) {
              var $$ = result.value;
              if (!$$.ptr) {
                console.warn("object already deleted: " + $$.ptr);
              } else {
                releaseClassHandle($$);
              }
            }
          });
          attachFinalizer = function(handle2) {
            finalizationGroup.register(handle2, handle2.$$, handle2.$$);
            return handle2;
          };
          detachFinalizer = function(handle2) {
            finalizationGroup.unregister(handle2.$$);
          };
          return attachFinalizer(handle);
        }
        function ClassHandle_clone() {
          if (!this.$$.ptr) {
            throwInstanceAlreadyDeleted(this);
          }
          if (this.$$.preservePointerOnDelete) {
            this.$$.count.value += 1;
            return this;
          } else {
            var clone = attachFinalizer(Object.create(Object.getPrototypeOf(this), { $$: { value: shallowCopyInternalPointer(this.$$) } }));
            clone.$$.count.value += 1;
            clone.$$.deleteScheduled = false;
            return clone;
          }
        }
        function ClassHandle_delete() {
          if (!this.$$.ptr) {
            throwInstanceAlreadyDeleted(this);
          }
          if (this.$$.deleteScheduled && !this.$$.preservePointerOnDelete) {
            throwBindingError("Object already scheduled for deletion");
          }
          detachFinalizer(this);
          releaseClassHandle(this.$$);
          if (!this.$$.preservePointerOnDelete) {
            this.$$.smartPtr = void 0;
            this.$$.ptr = void 0;
          }
        }
        function ClassHandle_isDeleted() {
          return !this.$$.ptr;
        }
        var delayFunction = void 0;
        var deletionQueue = [];
        function flushPendingDeletes() {
          while (deletionQueue.length) {
            var obj = deletionQueue.pop();
            obj.$$.deleteScheduled = false;
            obj["delete"]();
          }
        }
        function ClassHandle_deleteLater() {
          if (!this.$$.ptr) {
            throwInstanceAlreadyDeleted(this);
          }
          if (this.$$.deleteScheduled && !this.$$.preservePointerOnDelete) {
            throwBindingError("Object already scheduled for deletion");
          }
          deletionQueue.push(this);
          if (deletionQueue.length === 1 && delayFunction) {
            delayFunction(flushPendingDeletes);
          }
          this.$$.deleteScheduled = true;
          return this;
        }
        function init_ClassHandle() {
          ClassHandle.prototype["isAliasOf"] = ClassHandle_isAliasOf;
          ClassHandle.prototype["clone"] = ClassHandle_clone;
          ClassHandle.prototype["delete"] = ClassHandle_delete;
          ClassHandle.prototype["isDeleted"] = ClassHandle_isDeleted;
          ClassHandle.prototype["deleteLater"] = ClassHandle_deleteLater;
        }
        function ClassHandle() {
        }
        var registeredPointers = {};
        function ensureOverloadTable(proto, methodName, humanName) {
          if (proto[methodName].overloadTable === void 0) {
            var prevFunc = proto[methodName];
            proto[methodName] = function() {
              if (!proto[methodName].overloadTable.hasOwnProperty(arguments.length)) {
                throwBindingError("Function '" + humanName + "' called with an invalid number of arguments (" + arguments.length + ") - expects one of (" + proto[methodName].overloadTable + ")!");
              }
              return proto[methodName].overloadTable[arguments.length].apply(this, arguments);
            };
            proto[methodName].overloadTable = [];
            proto[methodName].overloadTable[prevFunc.argCount] = prevFunc;
          }
        }
        function exposePublicSymbol(name2, value, numArguments) {
          if (Module.hasOwnProperty(name2)) {
            if (numArguments === void 0 || Module[name2].overloadTable !== void 0 && Module[name2].overloadTable[numArguments] !== void 0) {
              throwBindingError("Cannot register public name '" + name2 + "' twice");
            }
            ensureOverloadTable(Module, name2, name2);
            if (Module.hasOwnProperty(numArguments)) {
              throwBindingError("Cannot register multiple overloads of a function with the same number of arguments (" + numArguments + ")!");
            }
            Module[name2].overloadTable[numArguments] = value;
          } else {
            Module[name2] = value;
            if (numArguments !== void 0) {
              Module[name2].numArguments = numArguments;
            }
          }
        }
        function RegisteredClass(name2, constructor, instancePrototype, rawDestructor, baseClass, getActualType, upcast, downcast) {
          this.name = name2;
          this.constructor = constructor;
          this.instancePrototype = instancePrototype;
          this.rawDestructor = rawDestructor;
          this.baseClass = baseClass;
          this.getActualType = getActualType;
          this.upcast = upcast;
          this.downcast = downcast;
          this.pureVirtualFunctions = [];
        }
        function upcastPointer(ptr, ptrClass, desiredClass) {
          while (ptrClass !== desiredClass) {
            if (!ptrClass.upcast) {
              throwBindingError("Expected null or instance of " + desiredClass.name + ", got an instance of " + ptrClass.name);
            }
            ptr = ptrClass.upcast(ptr);
            ptrClass = ptrClass.baseClass;
          }
          return ptr;
        }
        function constNoSmartPtrRawPointerToWireType(destructors, handle) {
          if (handle === null) {
            if (this.isReference) {
              throwBindingError("null is not a valid " + this.name);
            }
            return 0;
          }
          if (!handle.$$) {
            throwBindingError('Cannot pass "' + _embind_repr(handle) + '" as a ' + this.name);
          }
          if (!handle.$$.ptr) {
            throwBindingError("Cannot pass deleted object as a pointer of type " + this.name);
          }
          var handleClass = handle.$$.ptrType.registeredClass;
          var ptr = upcastPointer(handle.$$.ptr, handleClass, this.registeredClass);
          return ptr;
        }
        function genericPointerToWireType(destructors, handle) {
          var ptr;
          if (handle === null) {
            if (this.isReference) {
              throwBindingError("null is not a valid " + this.name);
            }
            if (this.isSmartPointer) {
              ptr = this.rawConstructor();
              if (destructors !== null) {
                destructors.push(this.rawDestructor, ptr);
              }
              return ptr;
            } else {
              return 0;
            }
          }
          if (!handle.$$) {
            throwBindingError('Cannot pass "' + _embind_repr(handle) + '" as a ' + this.name);
          }
          if (!handle.$$.ptr) {
            throwBindingError("Cannot pass deleted object as a pointer of type " + this.name);
          }
          if (!this.isConst && handle.$$.ptrType.isConst) {
            throwBindingError("Cannot convert argument of type " + (handle.$$.smartPtrType ? handle.$$.smartPtrType.name : handle.$$.ptrType.name) + " to parameter type " + this.name);
          }
          var handleClass = handle.$$.ptrType.registeredClass;
          ptr = upcastPointer(handle.$$.ptr, handleClass, this.registeredClass);
          if (this.isSmartPointer) {
            if (handle.$$.smartPtr === void 0) {
              throwBindingError("Passing raw pointer to smart pointer is illegal");
            }
            switch (this.sharingPolicy) {
              case 0:
                if (handle.$$.smartPtrType === this) {
                  ptr = handle.$$.smartPtr;
                } else {
                  throwBindingError("Cannot convert argument of type " + (handle.$$.smartPtrType ? handle.$$.smartPtrType.name : handle.$$.ptrType.name) + " to parameter type " + this.name);
                }
                break;
              case 1:
                ptr = handle.$$.smartPtr;
                break;
              case 2:
                if (handle.$$.smartPtrType === this) {
                  ptr = handle.$$.smartPtr;
                } else {
                  var clonedHandle = handle["clone"]();
                  ptr = this.rawShare(ptr, __emval_register(function() {
                    clonedHandle["delete"]();
                  }));
                  if (destructors !== null) {
                    destructors.push(this.rawDestructor, ptr);
                  }
                }
                break;
              default:
                throwBindingError("Unsupporting sharing policy");
            }
          }
          return ptr;
        }
        function nonConstNoSmartPtrRawPointerToWireType(destructors, handle) {
          if (handle === null) {
            if (this.isReference) {
              throwBindingError("null is not a valid " + this.name);
            }
            return 0;
          }
          if (!handle.$$) {
            throwBindingError('Cannot pass "' + _embind_repr(handle) + '" as a ' + this.name);
          }
          if (!handle.$$.ptr) {
            throwBindingError("Cannot pass deleted object as a pointer of type " + this.name);
          }
          if (handle.$$.ptrType.isConst) {
            throwBindingError("Cannot convert argument of type " + handle.$$.ptrType.name + " to parameter type " + this.name);
          }
          var handleClass = handle.$$.ptrType.registeredClass;
          var ptr = upcastPointer(handle.$$.ptr, handleClass, this.registeredClass);
          return ptr;
        }
        function RegisteredPointer_getPointee(ptr) {
          if (this.rawGetPointee) {
            ptr = this.rawGetPointee(ptr);
          }
          return ptr;
        }
        function RegisteredPointer_destructor(ptr) {
          if (this.rawDestructor) {
            this.rawDestructor(ptr);
          }
        }
        function RegisteredPointer_deleteObject(handle) {
          if (handle !== null) {
            handle["delete"]();
          }
        }
        function downcastPointer(ptr, ptrClass, desiredClass) {
          if (ptrClass === desiredClass) {
            return ptr;
          }
          if (desiredClass.baseClass === void 0) {
            return null;
          }
          var rv = downcastPointer(ptr, ptrClass, desiredClass.baseClass);
          if (rv === null) {
            return null;
          }
          return desiredClass.downcast(rv);
        }
        function getInheritedInstanceCount() {
          return Object.keys(registeredInstances).length;
        }
        function getLiveInheritedInstances() {
          var rv = [];
          for (var k in registeredInstances) {
            if (registeredInstances.hasOwnProperty(k)) {
              rv.push(registeredInstances[k]);
            }
          }
          return rv;
        }
        function setDelayFunction(fn) {
          delayFunction = fn;
          if (deletionQueue.length && delayFunction) {
            delayFunction(flushPendingDeletes);
          }
        }
        function init_embind() {
          Module["getInheritedInstanceCount"] = getInheritedInstanceCount;
          Module["getLiveInheritedInstances"] = getLiveInheritedInstances;
          Module["flushPendingDeletes"] = flushPendingDeletes;
          Module["setDelayFunction"] = setDelayFunction;
        }
        var registeredInstances = {};
        function getBasestPointer(class_, ptr) {
          if (ptr === void 0) {
            throwBindingError("ptr should not be undefined");
          }
          while (class_.baseClass) {
            ptr = class_.upcast(ptr);
            class_ = class_.baseClass;
          }
          return ptr;
        }
        function getInheritedInstance(class_, ptr) {
          ptr = getBasestPointer(class_, ptr);
          return registeredInstances[ptr];
        }
        function makeClassHandle(prototype, record) {
          if (!record.ptrType || !record.ptr) {
            throwInternalError("makeClassHandle requires ptr and ptrType");
          }
          var hasSmartPtrType = !!record.smartPtrType;
          var hasSmartPtr = !!record.smartPtr;
          if (hasSmartPtrType !== hasSmartPtr) {
            throwInternalError("Both smartPtrType and smartPtr must be specified");
          }
          record.count = { value: 1 };
          return attachFinalizer(Object.create(prototype, { $$: { value: record } }));
        }
        function RegisteredPointer_fromWireType(ptr) {
          var rawPointer = this.getPointee(ptr);
          if (!rawPointer) {
            this.destructor(ptr);
            return null;
          }
          var registeredInstance = getInheritedInstance(this.registeredClass, rawPointer);
          if (registeredInstance !== void 0) {
            if (registeredInstance.$$.count.value === 0) {
              registeredInstance.$$.ptr = rawPointer;
              registeredInstance.$$.smartPtr = ptr;
              return registeredInstance["clone"]();
            } else {
              var rv = registeredInstance["clone"]();
              this.destructor(ptr);
              return rv;
            }
          }
          function makeDefaultHandle() {
            if (this.isSmartPointer) {
              return makeClassHandle(this.registeredClass.instancePrototype, { ptrType: this.pointeeType, ptr: rawPointer, smartPtrType: this, smartPtr: ptr });
            } else {
              return makeClassHandle(this.registeredClass.instancePrototype, { ptrType: this, ptr });
            }
          }
          var actualType = this.registeredClass.getActualType(rawPointer);
          var registeredPointerRecord = registeredPointers[actualType];
          if (!registeredPointerRecord) {
            return makeDefaultHandle.call(this);
          }
          var toType;
          if (this.isConst) {
            toType = registeredPointerRecord.constPointerType;
          } else {
            toType = registeredPointerRecord.pointerType;
          }
          var dp = downcastPointer(rawPointer, this.registeredClass, toType.registeredClass);
          if (dp === null) {
            return makeDefaultHandle.call(this);
          }
          if (this.isSmartPointer) {
            return makeClassHandle(toType.registeredClass.instancePrototype, { ptrType: toType, ptr: dp, smartPtrType: this, smartPtr: ptr });
          } else {
            return makeClassHandle(toType.registeredClass.instancePrototype, { ptrType: toType, ptr: dp });
          }
        }
        function init_RegisteredPointer() {
          RegisteredPointer.prototype.getPointee = RegisteredPointer_getPointee;
          RegisteredPointer.prototype.destructor = RegisteredPointer_destructor;
          RegisteredPointer.prototype["argPackAdvance"] = 8;
          RegisteredPointer.prototype["readValueFromPointer"] = simpleReadValueFromPointer;
          RegisteredPointer.prototype["deleteObject"] = RegisteredPointer_deleteObject;
          RegisteredPointer.prototype["fromWireType"] = RegisteredPointer_fromWireType;
        }
        function RegisteredPointer(name2, registeredClass, isReference, isConst, isSmartPointer, pointeeType, sharingPolicy, rawGetPointee, rawConstructor, rawShare, rawDestructor) {
          this.name = name2;
          this.registeredClass = registeredClass;
          this.isReference = isReference;
          this.isConst = isConst;
          this.isSmartPointer = isSmartPointer;
          this.pointeeType = pointeeType;
          this.sharingPolicy = sharingPolicy;
          this.rawGetPointee = rawGetPointee;
          this.rawConstructor = rawConstructor;
          this.rawShare = rawShare;
          this.rawDestructor = rawDestructor;
          if (!isSmartPointer && registeredClass.baseClass === void 0) {
            if (isConst) {
              this["toWireType"] = constNoSmartPtrRawPointerToWireType;
              this.destructorFunction = null;
            } else {
              this["toWireType"] = nonConstNoSmartPtrRawPointerToWireType;
              this.destructorFunction = null;
            }
          } else {
            this["toWireType"] = genericPointerToWireType;
          }
        }
        function replacePublicSymbol(name2, value, numArguments) {
          if (!Module.hasOwnProperty(name2)) {
            throwInternalError("Replacing nonexistant public symbol");
          }
          if (Module[name2].overloadTable !== void 0 && numArguments !== void 0) {
            Module[name2].overloadTable[numArguments] = value;
          } else {
            Module[name2] = value;
            Module[name2].argCount = numArguments;
          }
        }
        function getDynCaller(sig, ptr) {
          assert(sig.indexOf("j") >= 0, "getDynCaller should only be called with i64 sigs");
          var argCache = [];
          return function() {
            argCache.length = arguments.length;
            for (var i = 0; i < arguments.length; i++) {
              argCache[i] = arguments[i];
            }
            return dynCall(sig, ptr, argCache);
          };
        }
        function embind__requireFunction(signature, rawFunction) {
          signature = readLatin1String(signature);
          function makeDynCaller() {
            if (signature.indexOf("j") != -1) {
              return getDynCaller(signature, rawFunction);
            }
            return wasmTable.get(rawFunction);
          }
          var fp = makeDynCaller();
          if (typeof fp !== "function") {
            throwBindingError("unknown function pointer with signature " + signature + ": " + rawFunction);
          }
          return fp;
        }
        var UnboundTypeError = void 0;
        function getTypeName(type) {
          var ptr = ___getTypeName(type);
          var rv = readLatin1String(ptr);
          _free(ptr);
          return rv;
        }
        function throwUnboundTypeError(message, types) {
          var unboundTypes = [];
          var seen = {};
          function visit(type) {
            if (seen[type]) {
              return;
            }
            if (registeredTypes[type]) {
              return;
            }
            if (typeDependencies[type]) {
              typeDependencies[type].forEach(visit);
              return;
            }
            unboundTypes.push(type);
            seen[type] = true;
          }
          types.forEach(visit);
          throw new UnboundTypeError(message + ": " + unboundTypes.map(getTypeName).join([", "]));
        }
        function __embind_register_class(rawType, rawPointerType, rawConstPointerType, baseClassRawType, getActualTypeSignature, getActualType, upcastSignature, upcast, downcastSignature, downcast, name2, destructorSignature, rawDestructor) {
          name2 = readLatin1String(name2);
          getActualType = embind__requireFunction(getActualTypeSignature, getActualType);
          if (upcast) {
            upcast = embind__requireFunction(upcastSignature, upcast);
          }
          if (downcast) {
            downcast = embind__requireFunction(downcastSignature, downcast);
          }
          rawDestructor = embind__requireFunction(destructorSignature, rawDestructor);
          var legalFunctionName = makeLegalFunctionName(name2);
          exposePublicSymbol(legalFunctionName, function() {
            throwUnboundTypeError("Cannot construct " + name2 + " due to unbound types", [baseClassRawType]);
          });
          whenDependentTypesAreResolved([rawType, rawPointerType, rawConstPointerType], baseClassRawType ? [baseClassRawType] : [], function(base) {
            base = base[0];
            var baseClass;
            var basePrototype;
            if (baseClassRawType) {
              baseClass = base.registeredClass;
              basePrototype = baseClass.instancePrototype;
            } else {
              basePrototype = ClassHandle.prototype;
            }
            var constructor = createNamedFunction(legalFunctionName, function() {
              if (Object.getPrototypeOf(this) !== instancePrototype) {
                throw new BindingError("Use 'new' to construct " + name2);
              }
              if (registeredClass.constructor_body === void 0) {
                throw new BindingError(name2 + " has no accessible constructor");
              }
              var body = registeredClass.constructor_body[arguments.length];
              if (body === void 0) {
                throw new BindingError("Tried to invoke ctor of " + name2 + " with invalid number of parameters (" + arguments.length + ") - expected (" + Object.keys(registeredClass.constructor_body).toString() + ") parameters instead!");
              }
              return body.apply(this, arguments);
            });
            var instancePrototype = Object.create(basePrototype, { constructor: { value: constructor } });
            constructor.prototype = instancePrototype;
            var registeredClass = new RegisteredClass(name2, constructor, instancePrototype, rawDestructor, baseClass, getActualType, upcast, downcast);
            var referenceConverter = new RegisteredPointer(name2, registeredClass, true, false, false);
            var pointerConverter = new RegisteredPointer(name2 + "*", registeredClass, false, false, false);
            var constPointerConverter = new RegisteredPointer(name2 + " const*", registeredClass, false, true, false);
            registeredPointers[rawType] = { pointerType: pointerConverter, constPointerType: constPointerConverter };
            replacePublicSymbol(legalFunctionName, constructor);
            return [referenceConverter, pointerConverter, constPointerConverter];
          });
        }
        function heap32VectorToArray(count, firstElement) {
          var array = [];
          for (var i = 0; i < count; i++) {
            array.push(HEAP32[(firstElement >> 2) + i >>> 0]);
          }
          return array;
        }
        function __embind_register_class_constructor(rawClassType, argCount, rawArgTypesAddr, invokerSignature, invoker, rawConstructor) {
          assert(argCount > 0);
          var rawArgTypes = heap32VectorToArray(argCount, rawArgTypesAddr);
          invoker = embind__requireFunction(invokerSignature, invoker);
          var args = [rawConstructor];
          var destructors = [];
          whenDependentTypesAreResolved([], [rawClassType], function(classType) {
            classType = classType[0];
            var humanName = "constructor " + classType.name;
            if (classType.registeredClass.constructor_body === void 0) {
              classType.registeredClass.constructor_body = [];
            }
            if (classType.registeredClass.constructor_body[argCount - 1] !== void 0) {
              throw new BindingError("Cannot register multiple constructors with identical number of parameters (" + (argCount - 1) + ") for class '" + classType.name + "'! Overload resolution is currently only performed using the parameter count, not actual type info!");
            }
            classType.registeredClass.constructor_body[argCount - 1] = function unboundTypeHandler() {
              throwUnboundTypeError("Cannot construct " + classType.name + " due to unbound types", rawArgTypes);
            };
            whenDependentTypesAreResolved([], rawArgTypes, function(argTypes) {
              classType.registeredClass.constructor_body[argCount - 1] = function constructor_body() {
                if (arguments.length !== argCount - 1) {
                  throwBindingError(humanName + " called with " + arguments.length + " arguments, expected " + (argCount - 1));
                }
                destructors.length = 0;
                args.length = argCount;
                for (var i = 1; i < argCount; ++i) {
                  args[i] = argTypes[i]["toWireType"](destructors, arguments[i - 1]);
                }
                var ptr = invoker.apply(null, args);
                runDestructors(destructors);
                return argTypes[0]["fromWireType"](ptr);
              };
              return [];
            });
            return [];
          });
        }
        function new_(constructor, argumentList) {
          if (!(constructor instanceof Function)) {
            throw new TypeError("new_ called with constructor type " + typeof constructor + " which is not a function");
          }
          var dummy = createNamedFunction(constructor.name || "unknownFunctionName", function() {
          });
          dummy.prototype = constructor.prototype;
          var obj = new dummy();
          var r = constructor.apply(obj, argumentList);
          return r instanceof Object ? r : obj;
        }
        function craftInvokerFunction(humanName, argTypes, classType, cppInvokerFunc, cppTargetFunc) {
          var argCount = argTypes.length;
          if (argCount < 2) {
            throwBindingError("argTypes array size mismatch! Must at least get return value and 'this' types!");
          }
          var isClassMethodFunc = argTypes[1] !== null && classType !== null;
          var needsDestructorStack = false;
          for (var i = 1; i < argTypes.length; ++i) {
            if (argTypes[i] !== null && argTypes[i].destructorFunction === void 0) {
              needsDestructorStack = true;
              break;
            }
          }
          var returns = argTypes[0].name !== "void";
          var argsList = "";
          var argsListWired = "";
          for (var i = 0; i < argCount - 2; ++i) {
            argsList += (i !== 0 ? ", " : "") + "arg" + i;
            argsListWired += (i !== 0 ? ", " : "") + "arg" + i + "Wired";
          }
          var invokerFnBody = "return function " + makeLegalFunctionName(humanName) + "(" + argsList + ") {\nif (arguments.length !== " + (argCount - 2) + ") {\nthrowBindingError('function " + humanName + " called with ' + arguments.length + ' arguments, expected " + (argCount - 2) + " args!');\n}\n";
          if (needsDestructorStack) {
            invokerFnBody += "var destructors = [];\n";
          }
          var dtorStack = needsDestructorStack ? "destructors" : "null";
          var args1 = ["throwBindingError", "invoker", "fn", "runDestructors", "retType", "classParam"];
          var args2 = [throwBindingError, cppInvokerFunc, cppTargetFunc, runDestructors, argTypes[0], argTypes[1]];
          if (isClassMethodFunc) {
            invokerFnBody += "var thisWired = classParam.toWireType(" + dtorStack + ", this);\n";
          }
          for (var i = 0; i < argCount - 2; ++i) {
            invokerFnBody += "var arg" + i + "Wired = argType" + i + ".toWireType(" + dtorStack + ", arg" + i + "); // " + argTypes[i + 2].name + "\n";
            args1.push("argType" + i);
            args2.push(argTypes[i + 2]);
          }
          if (isClassMethodFunc) {
            argsListWired = "thisWired" + (argsListWired.length > 0 ? ", " : "") + argsListWired;
          }
          invokerFnBody += (returns ? "var rv = " : "") + "invoker(fn" + (argsListWired.length > 0 ? ", " : "") + argsListWired + ");\n";
          if (needsDestructorStack) {
            invokerFnBody += "runDestructors(destructors);\n";
          } else {
            for (var i = isClassMethodFunc ? 1 : 2; i < argTypes.length; ++i) {
              var paramName = i === 1 ? "thisWired" : "arg" + (i - 2) + "Wired";
              if (argTypes[i].destructorFunction !== null) {
                invokerFnBody += paramName + "_dtor(" + paramName + "); // " + argTypes[i].name + "\n";
                args1.push(paramName + "_dtor");
                args2.push(argTypes[i].destructorFunction);
              }
            }
          }
          if (returns) {
            invokerFnBody += "var ret = retType.fromWireType(rv);\nreturn ret;\n";
          } else {
          }
          invokerFnBody += "}\n";
          args1.push(invokerFnBody);
          var invokerFunction = new_(Function, args1).apply(null, args2);
          return invokerFunction;
        }
        function __embind_register_class_function(rawClassType, methodName, argCount, rawArgTypesAddr, invokerSignature, rawInvoker, context, isPureVirtual) {
          var rawArgTypes = heap32VectorToArray(argCount, rawArgTypesAddr);
          methodName = readLatin1String(methodName);
          rawInvoker = embind__requireFunction(invokerSignature, rawInvoker);
          whenDependentTypesAreResolved([], [rawClassType], function(classType) {
            classType = classType[0];
            var humanName = classType.name + "." + methodName;
            if (isPureVirtual) {
              classType.registeredClass.pureVirtualFunctions.push(methodName);
            }
            function unboundTypesHandler() {
              throwUnboundTypeError("Cannot call " + humanName + " due to unbound types", rawArgTypes);
            }
            var proto = classType.registeredClass.instancePrototype;
            var method = proto[methodName];
            if (method === void 0 || method.overloadTable === void 0 && method.className !== classType.name && method.argCount === argCount - 2) {
              unboundTypesHandler.argCount = argCount - 2;
              unboundTypesHandler.className = classType.name;
              proto[methodName] = unboundTypesHandler;
            } else {
              ensureOverloadTable(proto, methodName, humanName);
              proto[methodName].overloadTable[argCount - 2] = unboundTypesHandler;
            }
            whenDependentTypesAreResolved([], rawArgTypes, function(argTypes) {
              var memberFunction = craftInvokerFunction(humanName, argTypes, classType, rawInvoker, context);
              if (proto[methodName].overloadTable === void 0) {
                memberFunction.argCount = argCount - 2;
                proto[methodName] = memberFunction;
              } else {
                proto[methodName].overloadTable[argCount - 2] = memberFunction;
              }
              return [];
            });
            return [];
          });
        }
        var emval_free_list = [];
        var emval_handle_array = [{}, { value: void 0 }, { value: null }, { value: true }, { value: false }];
        function __emval_decref(handle) {
          if (handle > 4 && --emval_handle_array[handle].refcount === 0) {
            emval_handle_array[handle] = void 0;
            emval_free_list.push(handle);
          }
        }
        function count_emval_handles() {
          var count = 0;
          for (var i = 5; i < emval_handle_array.length; ++i) {
            if (emval_handle_array[i] !== void 0) {
              ++count;
            }
          }
          return count;
        }
        function get_first_emval() {
          for (var i = 5; i < emval_handle_array.length; ++i) {
            if (emval_handle_array[i] !== void 0) {
              return emval_handle_array[i];
            }
          }
          return null;
        }
        function init_emval() {
          Module["count_emval_handles"] = count_emval_handles;
          Module["get_first_emval"] = get_first_emval;
        }
        function __emval_register(value) {
          switch (value) {
            case void 0: {
              return 1;
            }
            case null: {
              return 2;
            }
            case true: {
              return 3;
            }
            case false: {
              return 4;
            }
            default: {
              var handle = emval_free_list.length ? emval_free_list.pop() : emval_handle_array.length;
              emval_handle_array[handle] = { refcount: 1, value };
              return handle;
            }
          }
        }
        function __embind_register_emval(rawType, name2) {
          name2 = readLatin1String(name2);
          registerType(rawType, { name: name2, "fromWireType": function(handle) {
            var rv = emval_handle_array[handle].value;
            __emval_decref(handle);
            return rv;
          }, "toWireType": function(destructors, value) {
            return __emval_register(value);
          }, "argPackAdvance": 8, "readValueFromPointer": simpleReadValueFromPointer, destructorFunction: null });
        }
        function _embind_repr(v) {
          if (v === null) {
            return "null";
          }
          var t = typeof v;
          if (t === "object" || t === "array" || t === "function") {
            return v.toString();
          } else {
            return "" + v;
          }
        }
        function floatReadValueFromPointer(name2, shift) {
          switch (shift) {
            case 2:
              return function(pointer) {
                return this["fromWireType"](HEAPF32[pointer >>> 2]);
              };
            case 3:
              return function(pointer) {
                return this["fromWireType"](HEAPF64[pointer >>> 3]);
              };
            default:
              throw new TypeError("Unknown float type: " + name2);
          }
        }
        function __embind_register_float(rawType, name2, size) {
          var shift = getShiftFromSize(size);
          name2 = readLatin1String(name2);
          registerType(rawType, { name: name2, "fromWireType": function(value) {
            return value;
          }, "toWireType": function(destructors, value) {
            if (typeof value !== "number" && typeof value !== "boolean") {
              throw new TypeError('Cannot convert "' + _embind_repr(value) + '" to ' + this.name);
            }
            return value;
          }, "argPackAdvance": 8, "readValueFromPointer": floatReadValueFromPointer(name2, shift), destructorFunction: null });
        }
        function __embind_register_function(name2, argCount, rawArgTypesAddr, signature, rawInvoker, fn) {
          var argTypes = heap32VectorToArray(argCount, rawArgTypesAddr);
          name2 = readLatin1String(name2);
          rawInvoker = embind__requireFunction(signature, rawInvoker);
          exposePublicSymbol(name2, function() {
            throwUnboundTypeError("Cannot call " + name2 + " due to unbound types", argTypes);
          }, argCount - 1);
          whenDependentTypesAreResolved([], argTypes, function(argTypes2) {
            var invokerArgsArray = [argTypes2[0], null].concat(argTypes2.slice(1));
            replacePublicSymbol(name2, craftInvokerFunction(name2, invokerArgsArray, null, rawInvoker, fn), argCount - 1);
            return [];
          });
        }
        function integerReadValueFromPointer(name2, shift, signed) {
          switch (shift) {
            case 0:
              return signed ? function readS8FromPointer(pointer) {
                return HEAP8[pointer >>> 0];
              } : function readU8FromPointer(pointer) {
                return HEAPU8[pointer >>> 0];
              };
            case 1:
              return signed ? function readS16FromPointer(pointer) {
                return HEAP16[pointer >>> 1];
              } : function readU16FromPointer(pointer) {
                return HEAPU16[pointer >>> 1];
              };
            case 2:
              return signed ? function readS32FromPointer(pointer) {
                return HEAP32[pointer >>> 2];
              } : function readU32FromPointer(pointer) {
                return HEAPU32[pointer >>> 2];
              };
            default:
              throw new TypeError("Unknown integer type: " + name2);
          }
        }
        function __embind_register_integer(primitiveType, name2, size, minRange, maxRange) {
          name2 = readLatin1String(name2);
          if (maxRange === -1) {
            maxRange = 4294967295;
          }
          var shift = getShiftFromSize(size);
          var fromWireType = function(value) {
            return value;
          };
          if (minRange === 0) {
            var bitshift = 32 - 8 * size;
            fromWireType = function(value) {
              return value << bitshift >>> bitshift;
            };
          }
          var isUnsignedType = name2.indexOf("unsigned") != -1;
          registerType(primitiveType, { name: name2, "fromWireType": fromWireType, "toWireType": function(destructors, value) {
            if (typeof value !== "number" && typeof value !== "boolean") {
              throw new TypeError('Cannot convert "' + _embind_repr(value) + '" to ' + this.name);
            }
            if (value < minRange || value > maxRange) {
              throw new TypeError('Passing a number "' + _embind_repr(value) + '" from JS side to C/C++ side to an argument of type "' + name2 + '", which is outside the valid range [' + minRange + ", " + maxRange + "]!");
            }
            return isUnsignedType ? value >>> 0 : value | 0;
          }, "argPackAdvance": 8, "readValueFromPointer": integerReadValueFromPointer(name2, shift, minRange !== 0), destructorFunction: null });
        }
        function __embind_register_memory_view(rawType, dataTypeIndex, name2) {
          var typeMapping = [Int8Array, Uint8Array, Int16Array, Uint16Array, Int32Array, Uint32Array, Float32Array, Float64Array];
          var TA = typeMapping[dataTypeIndex];
          function decodeMemoryView(handle) {
            handle = handle >> 2;
            var heap = HEAPU32;
            var size = heap[handle >>> 0];
            var data = heap[handle + 1 >>> 0];
            return new TA(buffer, data, size);
          }
          name2 = readLatin1String(name2);
          registerType(rawType, { name: name2, "fromWireType": decodeMemoryView, "argPackAdvance": 8, "readValueFromPointer": decodeMemoryView }, { ignoreDuplicateRegistrations: true });
        }
        function __embind_register_std_string(rawType, name2) {
          name2 = readLatin1String(name2);
          var stdStringIsUTF8 = name2 === "std::string";
          registerType(rawType, { name: name2, "fromWireType": function(value) {
            var length = HEAPU32[value >>> 2];
            var str;
            if (stdStringIsUTF8) {
              var decodeStartPtr = value + 4;
              for (var i = 0; i <= length; ++i) {
                var currentBytePtr = value + 4 + i;
                if (i == length || HEAPU8[currentBytePtr >>> 0] == 0) {
                  var maxRead = currentBytePtr - decodeStartPtr;
                  var stringSegment = UTF8ToString(decodeStartPtr, maxRead);
                  if (str === void 0) {
                    str = stringSegment;
                  } else {
                    str += String.fromCharCode(0);
                    str += stringSegment;
                  }
                  decodeStartPtr = currentBytePtr + 1;
                }
              }
            } else {
              var a = new Array(length);
              for (var i = 0; i < length; ++i) {
                a[i] = String.fromCharCode(HEAPU8[value + 4 + i >>> 0]);
              }
              str = a.join("");
            }
            _free(value);
            return str;
          }, "toWireType": function(destructors, value) {
            if (value instanceof ArrayBuffer) {
              value = new Uint8Array(value);
            }
            var getLength;
            var valueIsOfTypeString = typeof value === "string";
            if (!(valueIsOfTypeString || value instanceof Uint8Array || value instanceof Uint8ClampedArray || value instanceof Int8Array)) {
              throwBindingError("Cannot pass non-string to std::string");
            }
            if (stdStringIsUTF8 && valueIsOfTypeString) {
              getLength = function() {
                return lengthBytesUTF8(value);
              };
            } else {
              getLength = function() {
                return value.length;
              };
            }
            var length = getLength();
            var ptr = _malloc(4 + length + 1);
            ptr >>>= 0;
            HEAPU32[ptr >>> 2] = length;
            if (stdStringIsUTF8 && valueIsOfTypeString) {
              stringToUTF8(value, ptr + 4, length + 1);
            } else {
              if (valueIsOfTypeString) {
                for (var i = 0; i < length; ++i) {
                  var charCode = value.charCodeAt(i);
                  if (charCode > 255) {
                    _free(ptr);
                    throwBindingError("String has UTF-16 code units that do not fit in 8 bits");
                  }
                  HEAPU8[ptr + 4 + i >>> 0] = charCode;
                }
              } else {
                for (var i = 0; i < length; ++i) {
                  HEAPU8[ptr + 4 + i >>> 0] = value[i];
                }
              }
            }
            if (destructors !== null) {
              destructors.push(_free, ptr);
            }
            return ptr;
          }, "argPackAdvance": 8, "readValueFromPointer": simpleReadValueFromPointer, destructorFunction: function(ptr) {
            _free(ptr);
          } });
        }
        function __embind_register_std_wstring(rawType, charSize, name2) {
          name2 = readLatin1String(name2);
          var decodeString, encodeString, getHeap, lengthBytesUTF, shift;
          if (charSize === 2) {
            decodeString = UTF16ToString;
            encodeString = stringToUTF16;
            lengthBytesUTF = lengthBytesUTF16;
            getHeap = function() {
              return HEAPU16;
            };
            shift = 1;
          } else if (charSize === 4) {
            decodeString = UTF32ToString;
            encodeString = stringToUTF32;
            lengthBytesUTF = lengthBytesUTF32;
            getHeap = function() {
              return HEAPU32;
            };
            shift = 2;
          }
          registerType(rawType, { name: name2, "fromWireType": function(value) {
            var length = HEAPU32[value >>> 2];
            var HEAP = getHeap();
            var str;
            var decodeStartPtr = value + 4;
            for (var i = 0; i <= length; ++i) {
              var currentBytePtr = value + 4 + i * charSize;
              if (i == length || HEAP[currentBytePtr >>> shift] == 0) {
                var maxReadBytes = currentBytePtr - decodeStartPtr;
                var stringSegment = decodeString(decodeStartPtr, maxReadBytes);
                if (str === void 0) {
                  str = stringSegment;
                } else {
                  str += String.fromCharCode(0);
                  str += stringSegment;
                }
                decodeStartPtr = currentBytePtr + charSize;
              }
            }
            _free(value);
            return str;
          }, "toWireType": function(destructors, value) {
            if (!(typeof value === "string")) {
              throwBindingError("Cannot pass non-string to C++ string type " + name2);
            }
            var length = lengthBytesUTF(value);
            var ptr = _malloc(4 + length + charSize);
            ptr >>>= 0;
            HEAPU32[ptr >>> 2] = length >> shift;
            encodeString(value, ptr + 4, length + charSize);
            if (destructors !== null) {
              destructors.push(_free, ptr);
            }
            return ptr;
          }, "argPackAdvance": 8, "readValueFromPointer": simpleReadValueFromPointer, destructorFunction: function(ptr) {
            _free(ptr);
          } });
        }
        function __embind_register_value_array(rawType, name2, constructorSignature, rawConstructor, destructorSignature, rawDestructor) {
          tupleRegistrations[rawType] = { name: readLatin1String(name2), rawConstructor: embind__requireFunction(constructorSignature, rawConstructor), rawDestructor: embind__requireFunction(destructorSignature, rawDestructor), elements: [] };
        }
        function __embind_register_value_array_element(rawTupleType, getterReturnType, getterSignature, getter, getterContext, setterArgumentType, setterSignature, setter, setterContext) {
          tupleRegistrations[rawTupleType].elements.push({ getterReturnType, getter: embind__requireFunction(getterSignature, getter), getterContext, setterArgumentType, setter: embind__requireFunction(setterSignature, setter), setterContext });
        }
        function __embind_register_value_object(rawType, name2, constructorSignature, rawConstructor, destructorSignature, rawDestructor) {
          structRegistrations[rawType] = { name: readLatin1String(name2), rawConstructor: embind__requireFunction(constructorSignature, rawConstructor), rawDestructor: embind__requireFunction(destructorSignature, rawDestructor), fields: [] };
        }
        function __embind_register_value_object_field(structType, fieldName, getterReturnType, getterSignature, getter, getterContext, setterArgumentType, setterSignature, setter, setterContext) {
          structRegistrations[structType].fields.push({ fieldName: readLatin1String(fieldName), getterReturnType, getter: embind__requireFunction(getterSignature, getter), getterContext, setterArgumentType, setter: embind__requireFunction(setterSignature, setter), setterContext });
        }
        function __embind_register_void(rawType, name2) {
          name2 = readLatin1String(name2);
          registerType(rawType, { isVoid: true, name: name2, "argPackAdvance": 0, "fromWireType": function() {
            return void 0;
          }, "toWireType": function(destructors, o) {
            return void 0;
          } });
        }
        function requireHandle(handle) {
          if (!handle) {
            throwBindingError("Cannot use deleted val. handle = " + handle);
          }
          return emval_handle_array[handle].value;
        }
        function requireRegisteredType(rawType, humanName) {
          var impl = registeredTypes[rawType];
          if (impl === void 0) {
            throwBindingError(humanName + " has unknown type " + getTypeName(rawType));
          }
          return impl;
        }
        function __emval_as(handle, returnType, destructorsRef) {
          handle = requireHandle(handle);
          returnType = requireRegisteredType(returnType, "emval::as");
          var destructors = [];
          var rd = __emval_register(destructors);
          HEAP32[destructorsRef >>> 2] = rd;
          return returnType["toWireType"](destructors, handle);
        }
        function __emval_lookupTypes(argCount, argTypes) {
          var a = new Array(argCount);
          for (var i = 0; i < argCount; ++i) {
            a[i] = requireRegisteredType(HEAP32[(argTypes >> 2) + i >>> 0], "parameter " + i);
          }
          return a;
        }
        function __emval_call(handle, argCount, argTypes, argv) {
          handle = requireHandle(handle);
          var types = __emval_lookupTypes(argCount, argTypes);
          var args = new Array(argCount);
          for (var i = 0; i < argCount; ++i) {
            var type = types[i];
            args[i] = type["readValueFromPointer"](argv);
            argv += type["argPackAdvance"];
          }
          var rv = handle.apply(void 0, args);
          return __emval_register(rv);
        }
        var emval_symbols = {};
        function getStringOrSymbol(address) {
          var symbol = emval_symbols[address];
          if (symbol === void 0) {
            return readLatin1String(address);
          } else {
            return symbol;
          }
        }
        function emval_get_global() {
          if (typeof globalThis === "object") {
            return globalThis;
          }
          return function() {
            return Function;
          }()("return this")();
        }
        function __emval_get_global(name2) {
          if (name2 === 0) {
            return __emval_register(emval_get_global());
          } else {
            name2 = getStringOrSymbol(name2);
            return __emval_register(emval_get_global()[name2]);
          }
        }
        function __emval_get_property(handle, key2) {
          handle = requireHandle(handle);
          key2 = requireHandle(key2);
          return __emval_register(handle[key2]);
        }
        function __emval_incref(handle) {
          if (handle > 4) {
            emval_handle_array[handle].refcount += 1;
          }
        }
        function __emval_instanceof(object, constructor) {
          object = requireHandle(object);
          constructor = requireHandle(constructor);
          return object instanceof constructor;
        }
        function __emval_is_number(handle) {
          handle = requireHandle(handle);
          return typeof handle === "number";
        }
        function __emval_new_array() {
          return __emval_register([]);
        }
        function __emval_new_cstring(v) {
          return __emval_register(getStringOrSymbol(v));
        }
        function __emval_new_object() {
          return __emval_register({});
        }
        function __emval_run_destructors(handle) {
          var destructors = emval_handle_array[handle].value;
          runDestructors(destructors);
          __emval_decref(handle);
        }
        function __emval_set_property(handle, key2, value) {
          handle = requireHandle(handle);
          key2 = requireHandle(key2);
          value = requireHandle(value);
          handle[key2] = value;
        }
        function __emval_take_value(type, argv) {
          type = requireRegisteredType(type, "_emval_take_value");
          var v = type["readValueFromPointer"](argv);
          return __emval_register(v);
        }
        function _abort() {
          abort();
        }
        var _emscripten_get_now;
        if (ENVIRONMENT_IS_NODE) {
          _emscripten_get_now = function() {
            var t = process["hrtime"]();
            return t[0] * 1e3 + t[1] / 1e6;
          };
        } else if (typeof dateNow !== "undefined") {
          _emscripten_get_now = dateNow;
        } else
          _emscripten_get_now = function() {
            return performance.now();
          };
        var _emscripten_get_now_is_monotonic = true;
        function _clock_gettime(clk_id, tp) {
          var now;
          if (clk_id === 0) {
            now = Date.now();
          } else if ((clk_id === 1 || clk_id === 4) && _emscripten_get_now_is_monotonic) {
            now = _emscripten_get_now();
          } else {
            setErrNo(28);
            return -1;
          }
          HEAP32[tp >>> 2] = now / 1e3 | 0;
          HEAP32[tp + 4 >>> 2] = now % 1e3 * 1e3 * 1e3 | 0;
          return 0;
        }
        function _emscripten_memcpy_big(dest, src, num) {
          HEAPU8.copyWithin(dest >>> 0, src >>> 0, src + num >>> 0);
        }
        function _emscripten_get_heap_size() {
          return HEAPU8.length;
        }
        function emscripten_realloc_buffer(size) {
          try {
            wasmMemory.grow(size - buffer.byteLength + 65535 >>> 16);
            updateGlobalBufferAndViews(wasmMemory.buffer);
            return 1;
          } catch (e) {
          }
        }
        function _emscripten_resize_heap(requestedSize) {
          requestedSize = requestedSize >>> 0;
          var oldSize = _emscripten_get_heap_size();
          var maxHeapSize = 4294967296;
          if (requestedSize > maxHeapSize) {
            return false;
          }
          var minHeapSize = 16777216;
          for (var cutDown = 1; cutDown <= 4; cutDown *= 2) {
            var overGrownHeapSize = oldSize * (1 + 0.2 / cutDown);
            overGrownHeapSize = Math.min(overGrownHeapSize, requestedSize + 100663296);
            var newSize = Math.min(maxHeapSize, alignUp(Math.max(minHeapSize, requestedSize, overGrownHeapSize), 65536));
            var replacement = emscripten_realloc_buffer(newSize);
            if (replacement) {
              return true;
            }
          }
          return false;
        }
        var ENV = {};
        function getExecutableName() {
          return thisProgram || "./this.program";
        }
        function getEnvStrings() {
          if (!getEnvStrings.strings) {
            var lang = (typeof navigator === "object" && navigator.languages && navigator.languages[0] || "C").replace("-", "_") + ".UTF-8";
            var env = { "USER": "web_user", "LOGNAME": "web_user", "PATH": "/", "PWD": "/", "HOME": "/home/web_user", "LANG": lang, "_": getExecutableName() };
            for (var x in ENV) {
              env[x] = ENV[x];
            }
            var strings = [];
            for (var x in env) {
              strings.push(x + "=" + env[x]);
            }
            getEnvStrings.strings = strings;
          }
          return getEnvStrings.strings;
        }
        function _environ_get(__environ, environ_buf) {
          try {
            var bufSize = 0;
            getEnvStrings().forEach(function(string, i) {
              var ptr = environ_buf + bufSize;
              HEAP32[__environ + i * 4 >>> 2] = ptr;
              writeAsciiToMemory(string, ptr);
              bufSize += string.length + 1;
            });
            return 0;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return e.errno;
          }
        }
        function _environ_sizes_get(penviron_count, penviron_buf_size) {
          try {
            var strings = getEnvStrings();
            HEAP32[penviron_count >>> 2] = strings.length;
            var bufSize = 0;
            strings.forEach(function(string) {
              bufSize += string.length + 1;
            });
            HEAP32[penviron_buf_size >>> 2] = bufSize;
            return 0;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return e.errno;
          }
        }
        function _fd_close(fd) {
          try {
            var stream = SYSCALLS.getStreamFromFD(fd);
            FS.close(stream);
            return 0;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return e.errno;
          }
        }
        function _fd_read(fd, iov, iovcnt, pnum) {
          try {
            var stream = SYSCALLS.getStreamFromFD(fd);
            var num = SYSCALLS.doReadv(stream, iov, iovcnt);
            HEAP32[pnum >>> 2] = num;
            return 0;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return e.errno;
          }
        }
        function _fd_seek(fd, offset_low, offset_high, whence, newOffset) {
          try {
            var stream = SYSCALLS.getStreamFromFD(fd);
            var HIGH_OFFSET = 4294967296;
            var offset = offset_high * HIGH_OFFSET + (offset_low >>> 0);
            var DOUBLE_LIMIT = 9007199254740992;
            if (offset <= -DOUBLE_LIMIT || offset >= DOUBLE_LIMIT) {
              return -61;
            }
            FS.llseek(stream, offset, whence);
            tempI64 = [stream.position >>> 0, (tempDouble = stream.position, +Math.abs(tempDouble) >= 1 ? tempDouble > 0 ? (Math.min(+Math.floor(tempDouble / 4294967296), 4294967295) | 0) >>> 0 : ~~+Math.ceil((tempDouble - +(~~tempDouble >>> 0)) / 4294967296) >>> 0 : 0)], HEAP32[newOffset >>> 2] = tempI64[0], HEAP32[newOffset + 4 >>> 2] = tempI64[1];
            if (stream.getdents && offset === 0 && whence === 0)
              stream.getdents = null;
            return 0;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return e.errno;
          }
        }
        function _fd_write(fd, iov, iovcnt, pnum) {
          try {
            var stream = SYSCALLS.getStreamFromFD(fd);
            var num = SYSCALLS.doWritev(stream, iov, iovcnt);
            HEAP32[pnum >>> 2] = num;
            return 0;
          } catch (e) {
            if (typeof FS === "undefined" || !(e instanceof FS.ErrnoError))
              abort(e);
            return e.errno;
          }
        }
        function _setTempRet0($i) {
          setTempRet0($i | 0);
        }
        function __isLeapYear(year) {
          return year % 4 === 0 && (year % 100 !== 0 || year % 400 === 0);
        }
        function __arraySum(array, index) {
          var sum = 0;
          for (var i = 0; i <= index; sum += array[i++]) {
          }
          return sum;
        }
        var __MONTH_DAYS_LEAP = [31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
        var __MONTH_DAYS_REGULAR = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];
        function __addDays(date, days) {
          var newDate = new Date(date.getTime());
          while (days > 0) {
            var leap = __isLeapYear(newDate.getFullYear());
            var currentMonth = newDate.getMonth();
            var daysInCurrentMonth = (leap ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR)[currentMonth];
            if (days > daysInCurrentMonth - newDate.getDate()) {
              days -= daysInCurrentMonth - newDate.getDate() + 1;
              newDate.setDate(1);
              if (currentMonth < 11) {
                newDate.setMonth(currentMonth + 1);
              } else {
                newDate.setMonth(0);
                newDate.setFullYear(newDate.getFullYear() + 1);
              }
            } else {
              newDate.setDate(newDate.getDate() + days);
              return newDate;
            }
          }
          return newDate;
        }
        function _strftime(s, maxsize, format, tm) {
          var tm_zone = HEAP32[tm + 40 >>> 2];
          var date = { tm_sec: HEAP32[tm >>> 2], tm_min: HEAP32[tm + 4 >>> 2], tm_hour: HEAP32[tm + 8 >>> 2], tm_mday: HEAP32[tm + 12 >>> 2], tm_mon: HEAP32[tm + 16 >>> 2], tm_year: HEAP32[tm + 20 >>> 2], tm_wday: HEAP32[tm + 24 >>> 2], tm_yday: HEAP32[tm + 28 >>> 2], tm_isdst: HEAP32[tm + 32 >>> 2], tm_gmtoff: HEAP32[tm + 36 >>> 2], tm_zone: tm_zone ? UTF8ToString(tm_zone) : "" };
          var pattern = UTF8ToString(format);
          var EXPANSION_RULES_1 = { "%c": "%a %b %d %H:%M:%S %Y", "%D": "%m/%d/%y", "%F": "%Y-%m-%d", "%h": "%b", "%r": "%I:%M:%S %p", "%R": "%H:%M", "%T": "%H:%M:%S", "%x": "%m/%d/%y", "%X": "%H:%M:%S", "%Ec": "%c", "%EC": "%C", "%Ex": "%m/%d/%y", "%EX": "%H:%M:%S", "%Ey": "%y", "%EY": "%Y", "%Od": "%d", "%Oe": "%e", "%OH": "%H", "%OI": "%I", "%Om": "%m", "%OM": "%M", "%OS": "%S", "%Ou": "%u", "%OU": "%U", "%OV": "%V", "%Ow": "%w", "%OW": "%W", "%Oy": "%y" };
          for (var rule in EXPANSION_RULES_1) {
            pattern = pattern.replace(new RegExp(rule, "g"), EXPANSION_RULES_1[rule]);
          }
          var WEEKDAYS = ["Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"];
          var MONTHS = ["January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"];
          function leadingSomething(value, digits, character) {
            var str = typeof value === "number" ? value.toString() : value || "";
            while (str.length < digits) {
              str = character[0] + str;
            }
            return str;
          }
          function leadingNulls(value, digits) {
            return leadingSomething(value, digits, "0");
          }
          function compareByDay(date1, date2) {
            function sgn(value) {
              return value < 0 ? -1 : value > 0 ? 1 : 0;
            }
            var compare;
            if ((compare = sgn(date1.getFullYear() - date2.getFullYear())) === 0) {
              if ((compare = sgn(date1.getMonth() - date2.getMonth())) === 0) {
                compare = sgn(date1.getDate() - date2.getDate());
              }
            }
            return compare;
          }
          function getFirstWeekStartDate(janFourth) {
            switch (janFourth.getDay()) {
              case 0:
                return new Date(janFourth.getFullYear() - 1, 11, 29);
              case 1:
                return janFourth;
              case 2:
                return new Date(janFourth.getFullYear(), 0, 3);
              case 3:
                return new Date(janFourth.getFullYear(), 0, 2);
              case 4:
                return new Date(janFourth.getFullYear(), 0, 1);
              case 5:
                return new Date(janFourth.getFullYear() - 1, 11, 31);
              case 6:
                return new Date(janFourth.getFullYear() - 1, 11, 30);
            }
          }
          function getWeekBasedYear(date2) {
            var thisDate = __addDays(new Date(date2.tm_year + 1900, 0, 1), date2.tm_yday);
            var janFourthThisYear = new Date(thisDate.getFullYear(), 0, 4);
            var janFourthNextYear = new Date(thisDate.getFullYear() + 1, 0, 4);
            var firstWeekStartThisYear = getFirstWeekStartDate(janFourthThisYear);
            var firstWeekStartNextYear = getFirstWeekStartDate(janFourthNextYear);
            if (compareByDay(firstWeekStartThisYear, thisDate) <= 0) {
              if (compareByDay(firstWeekStartNextYear, thisDate) <= 0) {
                return thisDate.getFullYear() + 1;
              } else {
                return thisDate.getFullYear();
              }
            } else {
              return thisDate.getFullYear() - 1;
            }
          }
          var EXPANSION_RULES_2 = { "%a": function(date2) {
            return WEEKDAYS[date2.tm_wday].substring(0, 3);
          }, "%A": function(date2) {
            return WEEKDAYS[date2.tm_wday];
          }, "%b": function(date2) {
            return MONTHS[date2.tm_mon].substring(0, 3);
          }, "%B": function(date2) {
            return MONTHS[date2.tm_mon];
          }, "%C": function(date2) {
            var year = date2.tm_year + 1900;
            return leadingNulls(year / 100 | 0, 2);
          }, "%d": function(date2) {
            return leadingNulls(date2.tm_mday, 2);
          }, "%e": function(date2) {
            return leadingSomething(date2.tm_mday, 2, " ");
          }, "%g": function(date2) {
            return getWeekBasedYear(date2).toString().substring(2);
          }, "%G": function(date2) {
            return getWeekBasedYear(date2);
          }, "%H": function(date2) {
            return leadingNulls(date2.tm_hour, 2);
          }, "%I": function(date2) {
            var twelveHour = date2.tm_hour;
            if (twelveHour == 0)
              twelveHour = 12;
            else if (twelveHour > 12)
              twelveHour -= 12;
            return leadingNulls(twelveHour, 2);
          }, "%j": function(date2) {
            return leadingNulls(date2.tm_mday + __arraySum(__isLeapYear(date2.tm_year + 1900) ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR, date2.tm_mon - 1), 3);
          }, "%m": function(date2) {
            return leadingNulls(date2.tm_mon + 1, 2);
          }, "%M": function(date2) {
            return leadingNulls(date2.tm_min, 2);
          }, "%n": function() {
            return "\n";
          }, "%p": function(date2) {
            if (date2.tm_hour >= 0 && date2.tm_hour < 12) {
              return "AM";
            } else {
              return "PM";
            }
          }, "%S": function(date2) {
            return leadingNulls(date2.tm_sec, 2);
          }, "%t": function() {
            return "	";
          }, "%u": function(date2) {
            return date2.tm_wday || 7;
          }, "%U": function(date2) {
            var janFirst = new Date(date2.tm_year + 1900, 0, 1);
            var firstSunday = janFirst.getDay() === 0 ? janFirst : __addDays(janFirst, 7 - janFirst.getDay());
            var endDate = new Date(date2.tm_year + 1900, date2.tm_mon, date2.tm_mday);
            if (compareByDay(firstSunday, endDate) < 0) {
              var februaryFirstUntilEndMonth = __arraySum(__isLeapYear(endDate.getFullYear()) ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR, endDate.getMonth() - 1) - 31;
              var firstSundayUntilEndJanuary = 31 - firstSunday.getDate();
              var days = firstSundayUntilEndJanuary + februaryFirstUntilEndMonth + endDate.getDate();
              return leadingNulls(Math.ceil(days / 7), 2);
            }
            return compareByDay(firstSunday, janFirst) === 0 ? "01" : "00";
          }, "%V": function(date2) {
            var janFourthThisYear = new Date(date2.tm_year + 1900, 0, 4);
            var janFourthNextYear = new Date(date2.tm_year + 1901, 0, 4);
            var firstWeekStartThisYear = getFirstWeekStartDate(janFourthThisYear);
            var firstWeekStartNextYear = getFirstWeekStartDate(janFourthNextYear);
            var endDate = __addDays(new Date(date2.tm_year + 1900, 0, 1), date2.tm_yday);
            if (compareByDay(endDate, firstWeekStartThisYear) < 0) {
              return "53";
            }
            if (compareByDay(firstWeekStartNextYear, endDate) <= 0) {
              return "01";
            }
            var daysDifference;
            if (firstWeekStartThisYear.getFullYear() < date2.tm_year + 1900) {
              daysDifference = date2.tm_yday + 32 - firstWeekStartThisYear.getDate();
            } else {
              daysDifference = date2.tm_yday + 1 - firstWeekStartThisYear.getDate();
            }
            return leadingNulls(Math.ceil(daysDifference / 7), 2);
          }, "%w": function(date2) {
            return date2.tm_wday;
          }, "%W": function(date2) {
            var janFirst = new Date(date2.tm_year, 0, 1);
            var firstMonday = janFirst.getDay() === 1 ? janFirst : __addDays(janFirst, janFirst.getDay() === 0 ? 1 : 7 - janFirst.getDay() + 1);
            var endDate = new Date(date2.tm_year + 1900, date2.tm_mon, date2.tm_mday);
            if (compareByDay(firstMonday, endDate) < 0) {
              var februaryFirstUntilEndMonth = __arraySum(__isLeapYear(endDate.getFullYear()) ? __MONTH_DAYS_LEAP : __MONTH_DAYS_REGULAR, endDate.getMonth() - 1) - 31;
              var firstMondayUntilEndJanuary = 31 - firstMonday.getDate();
              var days = firstMondayUntilEndJanuary + februaryFirstUntilEndMonth + endDate.getDate();
              return leadingNulls(Math.ceil(days / 7), 2);
            }
            return compareByDay(firstMonday, janFirst) === 0 ? "01" : "00";
          }, "%y": function(date2) {
            return (date2.tm_year + 1900).toString().substring(2);
          }, "%Y": function(date2) {
            return date2.tm_year + 1900;
          }, "%z": function(date2) {
            var off = date2.tm_gmtoff;
            var ahead = off >= 0;
            off = Math.abs(off) / 60;
            off = off / 60 * 100 + off % 60;
            return (ahead ? "+" : "-") + String("0000" + off).slice(-4);
          }, "%Z": function(date2) {
            return date2.tm_zone;
          }, "%%": function() {
            return "%";
          } };
          for (var rule in EXPANSION_RULES_2) {
            if (pattern.indexOf(rule) >= 0) {
              pattern = pattern.replace(new RegExp(rule, "g"), EXPANSION_RULES_2[rule](date));
            }
          }
          var bytes = intArrayFromString(pattern, false);
          if (bytes.length > maxsize) {
            return 0;
          }
          writeArrayToMemory(bytes, s);
          return bytes.length - 1;
        }
        function _strftime_l(s, maxsize, format, tm) {
          return _strftime(s, maxsize, format, tm);
        }
        var FSNode = function(parent, name2, mode, rdev) {
          if (!parent) {
            parent = this;
          }
          this.parent = parent;
          this.mount = parent.mount;
          this.mounted = null;
          this.id = FS.nextInode++;
          this.name = name2;
          this.mode = mode;
          this.node_ops = {};
          this.stream_ops = {};
          this.rdev = rdev;
        };
        var readMode = 292 | 73;
        var writeMode = 146;
        Object.defineProperties(FSNode.prototype, { read: { get: function() {
          return (this.mode & readMode) === readMode;
        }, set: function(val) {
          val ? this.mode |= readMode : this.mode &= ~readMode;
        } }, write: { get: function() {
          return (this.mode & writeMode) === writeMode;
        }, set: function(val) {
          val ? this.mode |= writeMode : this.mode &= ~writeMode;
        } }, isFolder: { get: function() {
          return FS.isDir(this.mode);
        } }, isDevice: { get: function() {
          return FS.isChrdev(this.mode);
        } } });
        FS.FSNode = FSNode;
        FS.staticInit();
        Module["FS_createPath"] = FS.createPath;
        Module["FS_createDataFile"] = FS.createDataFile;
        Module["FS_createPreloadedFile"] = FS.createPreloadedFile;
        Module["FS_createLazyFile"] = FS.createLazyFile;
        Module["FS_createDevice"] = FS.createDevice;
        Module["FS_unlink"] = FS.unlink;
        InternalError = Module["InternalError"] = extendError(Error, "InternalError");
        embind_init_charCodes();
        BindingError = Module["BindingError"] = extendError(Error, "BindingError");
        init_ClassHandle();
        init_RegisteredPointer();
        init_embind();
        UnboundTypeError = Module["UnboundTypeError"] = extendError(Error, "UnboundTypeError");
        init_emval();
        function intArrayFromString(stringy, dontAddNull, length) {
          var len = length > 0 ? length : lengthBytesUTF8(stringy) + 1;
          var u8array = new Array(len);
          var numBytesWritten = stringToUTF8Array(stringy, u8array, 0, u8array.length);
          if (dontAddNull)
            u8array.length = numBytesWritten;
          return u8array;
        }
        __ATINIT__.push({ func: function() {
          ___wasm_call_ctors();
        } });
        var asmLibraryArg = { "x": ___assert_fail, "A": ___sys_fcntl64, "P": ___sys_ioctl, "Q": ___sys_open, "U": __embind_finalize_value_array, "s": __embind_finalize_value_object, "S": __embind_register_bool, "v": __embind_register_class, "u": __embind_register_class_constructor, "d": __embind_register_class_function, "R": __embind_register_emval, "C": __embind_register_float, "h": __embind_register_function, "m": __embind_register_integer, "k": __embind_register_memory_view, "D": __embind_register_std_string, "w": __embind_register_std_wstring, "V": __embind_register_value_array, "g": __embind_register_value_array_element, "t": __embind_register_value_object, "j": __embind_register_value_object_field, "T": __embind_register_void, "q": __emval_as, "W": __emval_call, "b": __emval_decref, "F": __emval_get_global, "n": __emval_get_property, "l": __emval_incref, "N": __emval_instanceof, "E": __emval_is_number, "y": __emval_new_array, "f": __emval_new_cstring, "r": __emval_new_object, "p": __emval_run_destructors, "i": __emval_set_property, "e": __emval_take_value, "c": _abort, "M": _clock_gettime, "I": _emscripten_memcpy_big, "o": _emscripten_resize_heap, "K": _environ_get, "L": _environ_sizes_get, "B": _fd_close, "O": _fd_read, "G": _fd_seek, "z": _fd_write, "a": wasmMemory, "H": _setTempRet0, "J": _strftime_l };
        var asm = createWasm();
        var ___wasm_call_ctors = Module["___wasm_call_ctors"] = function() {
          return (___wasm_call_ctors = Module["___wasm_call_ctors"] = Module["asm"]["Y"]).apply(null, arguments);
        };
        var _main = Module["_main"] = function() {
          return (_main = Module["_main"] = Module["asm"]["Z"]).apply(null, arguments);
        };
        var _malloc = Module["_malloc"] = function() {
          return (_malloc = Module["_malloc"] = Module["asm"]["_"]).apply(null, arguments);
        };
        var ___getTypeName = Module["___getTypeName"] = function() {
          return (___getTypeName = Module["___getTypeName"] = Module["asm"]["$"]).apply(null, arguments);
        };
        var ___embind_register_native_and_builtin_types = Module["___embind_register_native_and_builtin_types"] = function() {
          return (___embind_register_native_and_builtin_types = Module["___embind_register_native_and_builtin_types"] = Module["asm"]["aa"]).apply(null, arguments);
        };
        var ___errno_location = Module["___errno_location"] = function() {
          return (___errno_location = Module["___errno_location"] = Module["asm"]["ba"]).apply(null, arguments);
        };
        var _free = Module["_free"] = function() {
          return (_free = Module["_free"] = Module["asm"]["ca"]).apply(null, arguments);
        };
        var dynCall_jiji = Module["dynCall_jiji"] = function() {
          return (dynCall_jiji = Module["dynCall_jiji"] = Module["asm"]["da"]).apply(null, arguments);
        };
        var dynCall_viijii = Module["dynCall_viijii"] = function() {
          return (dynCall_viijii = Module["dynCall_viijii"] = Module["asm"]["ea"]).apply(null, arguments);
        };
        var dynCall_iiiiiijj = Module["dynCall_iiiiiijj"] = function() {
          return (dynCall_iiiiiijj = Module["dynCall_iiiiiijj"] = Module["asm"]["fa"]).apply(null, arguments);
        };
        var dynCall_iiiiij = Module["dynCall_iiiiij"] = function() {
          return (dynCall_iiiiij = Module["dynCall_iiiiij"] = Module["asm"]["ga"]).apply(null, arguments);
        };
        var dynCall_iiiiijj = Module["dynCall_iiiiijj"] = function() {
          return (dynCall_iiiiijj = Module["dynCall_iiiiijj"] = Module["asm"]["ha"]).apply(null, arguments);
        };
        Module["addRunDependency"] = addRunDependency;
        Module["removeRunDependency"] = removeRunDependency;
        Module["FS_createPath"] = FS.createPath;
        Module["FS_createDataFile"] = FS.createDataFile;
        Module["FS_createPreloadedFile"] = FS.createPreloadedFile;
        Module["FS_createLazyFile"] = FS.createLazyFile;
        Module["FS_createDevice"] = FS.createDevice;
        Module["FS_unlink"] = FS.unlink;
        Module["FS"] = FS;
        var calledRun;
        function ExitStatus(status) {
          this.name = "ExitStatus";
          this.message = "Program terminated with exit(" + status + ")";
          this.status = status;
        }
        var calledMain = false;
        dependenciesFulfilled = function runCaller() {
          if (!calledRun)
            run();
          if (!calledRun)
            dependenciesFulfilled = runCaller;
        };
        function callMain(args) {
          var entryFunction = Module["_main"];
          var argc = 0;
          var argv = 0;
          try {
            var ret = entryFunction(argc, argv);
            exit(ret, true);
          } catch (e) {
            if (e instanceof ExitStatus) {
              return;
            } else if (e == "unwind") {
              noExitRuntime = true;
              return;
            } else {
              var toLog = e;
              if (e && typeof e === "object" && e.stack) {
                toLog = [e, e.stack];
              }
              err("exception thrown: " + toLog);
              quit_(1, e);
            }
          } finally {
            calledMain = true;
          }
        }
        function run(args) {
          args = args || arguments_;
          if (runDependencies > 0) {
            return;
          }
          preRun();
          if (runDependencies > 0)
            return;
          function doRun() {
            if (calledRun)
              return;
            calledRun = true;
            Module["calledRun"] = true;
            if (ABORT)
              return;
            initRuntime();
            preMain();
            readyPromiseResolve(Module);
            if (Module["onRuntimeInitialized"])
              Module["onRuntimeInitialized"]();
            if (shouldRunNow)
              callMain(args);
            postRun();
          }
          if (Module["setStatus"]) {
            Module["setStatus"]("Running...");
            setTimeout(function() {
              setTimeout(function() {
                Module["setStatus"]("");
              }, 1);
              doRun();
            }, 1);
          } else {
            doRun();
          }
        }
        Module["run"] = run;
        function exit(status, implicit) {
          if (implicit && noExitRuntime && status === 0) {
            return;
          }
          if (noExitRuntime) {
          } else {
            EXITSTATUS = status;
            exitRuntime();
            if (Module["onExit"])
              Module["onExit"](status);
            ABORT = true;
          }
          quit_(status, new ExitStatus(status));
        }
        if (Module["preInit"]) {
          if (typeof Module["preInit"] == "function")
            Module["preInit"] = [Module["preInit"]];
          while (Module["preInit"].length > 0) {
            Module["preInit"].pop()();
          }
        }
        var shouldRunNow = true;
        if (Module["noInitialRun"])
          shouldRunNow = false;
        noExitRuntime = true;
        run();
        return WebIFCWasm3.ready;
      };
    }();
    if (typeof exports === "object" && typeof module === "object")
      module.exports = WebIFCWasm2;
    else if (typeof define === "function" && define["amd"])
      define([], function() {
        return WebIFCWasm2;
      });
    else if (typeof exports === "object")
      exports["WebIFCWasm"] = WebIFCWasm2;
  }
});

// dist/ifc2x4.ts
var IFCACTIONREQUEST = 3821786052;
var IFCACTOR = 2296667514;
var IFCACTORROLE = 3630933823;
var IFCACTUATOR = 4288193352;
var IFCACTUATORTYPE = 2874132201;
var IFCADDRESS = 618182010;
var IFCADVANCEDBREP = 1635779807;
var IFCADVANCEDBREPWITHVOIDS = 2603310189;
var IFCADVANCEDFACE = 3406155212;
var IFCAIRTERMINAL = 1634111441;
var IFCAIRTERMINALBOX = 177149247;
var IFCAIRTERMINALBOXTYPE = 1411407467;
var IFCAIRTERMINALTYPE = 3352864051;
var IFCAIRTOAIRHEATRECOVERY = 2056796094;
var IFCAIRTOAIRHEATRECOVERYTYPE = 1871374353;
var IFCALARM = 3087945054;
var IFCALARMTYPE = 3001207471;
var IFCALIGNMENT = 325726236;
var IFCALIGNMENT2DHORIZONTAL = 749761778;
var IFCALIGNMENT2DHORIZONTALSEGMENT = 3199563722;
var IFCALIGNMENT2DSEGMENT = 2483840362;
var IFCALIGNMENT2DVERSEGCIRCULARARC = 3379348081;
var IFCALIGNMENT2DVERSEGLINE = 3239324667;
var IFCALIGNMENT2DVERSEGPARABOLICARC = 4263986512;
var IFCALIGNMENT2DVERTICAL = 53199957;
var IFCALIGNMENT2DVERTICALSEGMENT = 2029264950;
var IFCALIGNMENTCURVE = 3512275521;
var IFCANNOTATION = 1674181508;
var IFCANNOTATIONFILLAREA = 669184980;
var IFCAPPLICATION = 639542469;
var IFCAPPLIEDVALUE = 411424972;
var IFCAPPROVAL = 130549933;
var IFCAPPROVALRELATIONSHIP = 3869604511;
var IFCARBITRARYCLOSEDPROFILEDEF = 3798115385;
var IFCARBITRARYOPENPROFILEDEF = 1310608509;
var IFCARBITRARYPROFILEDEFWITHVOIDS = 2705031697;
var IFCASSET = 3460190687;
var IFCASYMMETRICISHAPEPROFILEDEF = 3207858831;
var IFCAUDIOVISUALAPPLIANCE = 277319702;
var IFCAUDIOVISUALAPPLIANCETYPE = 1532957894;
var IFCAXIS1PLACEMENT = 4261334040;
var IFCAXIS2PLACEMENT2D = 3125803723;
var IFCAXIS2PLACEMENT3D = 2740243338;
var IFCBSPLINECURVE = 1967976161;
var IFCBSPLINECURVEWITHKNOTS = 2461110595;
var IFCBSPLINESURFACE = 2887950389;
var IFCBSPLINESURFACEWITHKNOTS = 167062518;
var IFCBEAM = 753842376;
var IFCBEAMSTANDARDCASE = 2906023776;
var IFCBEAMTYPE = 819618141;
var IFCBEARING = 4196446775;
var IFCBEARINGTYPE = 3649138523;
var IFCBLOBTEXTURE = 616511568;
var IFCBLOCK = 1334484129;
var IFCBOILER = 32344328;
var IFCBOILERTYPE = 231477066;
var IFCBOOLEANCLIPPINGRESULT = 3649129432;
var IFCBOOLEANRESULT = 2736907675;
var IFCBOUNDARYCONDITION = 4037036970;
var IFCBOUNDARYCURVE = 1136057603;
var IFCBOUNDARYEDGECONDITION = 1560379544;
var IFCBOUNDARYFACECONDITION = 3367102660;
var IFCBOUNDARYNODECONDITION = 1387855156;
var IFCBOUNDARYNODECONDITIONWARPING = 2069777674;
var IFCBOUNDEDCURVE = 1260505505;
var IFCBOUNDEDSURFACE = 4182860854;
var IFCBOUNDINGBOX = 2581212453;
var IFCBOXEDHALFSPACE = 2713105998;
var IFCBRIDGE = 644574406;
var IFCBRIDGEPART = 963979645;
var IFCBUILDING = 4031249490;
var IFCBUILDINGELEMENT = 3299480353;
var IFCBUILDINGELEMENTPART = 2979338954;
var IFCBUILDINGELEMENTPARTTYPE = 39481116;
var IFCBUILDINGELEMENTPROXY = 1095909175;
var IFCBUILDINGELEMENTPROXYTYPE = 1909888760;
var IFCBUILDINGELEMENTTYPE = 1950629157;
var IFCBUILDINGSTOREY = 3124254112;
var IFCBUILDINGSYSTEM = 1177604601;
var IFCBURNER = 2938176219;
var IFCBURNERTYPE = 2188180465;
var IFCCSHAPEPROFILEDEF = 2898889636;
var IFCCABLECARRIERFITTING = 635142910;
var IFCCABLECARRIERFITTINGTYPE = 395041908;
var IFCCABLECARRIERSEGMENT = 3758799889;
var IFCCABLECARRIERSEGMENTTYPE = 3293546465;
var IFCCABLEFITTING = 1051757585;
var IFCCABLEFITTINGTYPE = 2674252688;
var IFCCABLESEGMENT = 4217484030;
var IFCCABLESEGMENTTYPE = 1285652485;
var IFCCAISSONFOUNDATION = 3999819293;
var IFCCAISSONFOUNDATIONTYPE = 3203706013;
var IFCCARTESIANPOINT = 1123145078;
var IFCCARTESIANPOINTLIST = 574549367;
var IFCCARTESIANPOINTLIST2D = 1675464909;
var IFCCARTESIANPOINTLIST3D = 2059837836;
var IFCCARTESIANTRANSFORMATIONOPERATOR = 59481748;
var IFCCARTESIANTRANSFORMATIONOPERATOR2D = 3749851601;
var IFCCARTESIANTRANSFORMATIONOPERATOR2DNONUNIFORM = 3486308946;
var IFCCARTESIANTRANSFORMATIONOPERATOR3D = 3331915920;
var IFCCARTESIANTRANSFORMATIONOPERATOR3DNONUNIFORM = 1416205885;
var IFCCENTERLINEPROFILEDEF = 3150382593;
var IFCCHILLER = 3902619387;
var IFCCHILLERTYPE = 2951183804;
var IFCCHIMNEY = 3296154744;
var IFCCHIMNEYTYPE = 2197970202;
var IFCCIRCLE = 2611217952;
var IFCCIRCLEHOLLOWPROFILEDEF = 2937912522;
var IFCCIRCLEPROFILEDEF = 1383045692;
var IFCCIRCULARARCSEGMENT2D = 1062206242;
var IFCCIVILELEMENT = 1677625105;
var IFCCIVILELEMENTTYPE = 3893394355;
var IFCCLASSIFICATION = 747523909;
var IFCCLASSIFICATIONREFERENCE = 647927063;
var IFCCLOSEDSHELL = 2205249479;
var IFCCOIL = 639361253;
var IFCCOILTYPE = 2301859152;
var IFCCOLOURRGB = 776857604;
var IFCCOLOURRGBLIST = 3285139300;
var IFCCOLOURSPECIFICATION = 3264961684;
var IFCCOLUMN = 843113511;
var IFCCOLUMNSTANDARDCASE = 905975707;
var IFCCOLUMNTYPE = 300633059;
var IFCCOMMUNICATIONSAPPLIANCE = 3221913625;
var IFCCOMMUNICATIONSAPPLIANCETYPE = 400855858;
var IFCCOMPLEXPROPERTY = 2542286263;
var IFCCOMPLEXPROPERTYTEMPLATE = 3875453745;
var IFCCOMPOSITECURVE = 3732776249;
var IFCCOMPOSITECURVEONSURFACE = 15328376;
var IFCCOMPOSITECURVESEGMENT = 2485617015;
var IFCCOMPOSITEPROFILEDEF = 1485152156;
var IFCCOMPRESSOR = 3571504051;
var IFCCOMPRESSORTYPE = 3850581409;
var IFCCONDENSER = 2272882330;
var IFCCONDENSERTYPE = 2816379211;
var IFCCONIC = 2510884976;
var IFCCONNECTEDFACESET = 370225590;
var IFCCONNECTIONCURVEGEOMETRY = 1981873012;
var IFCCONNECTIONGEOMETRY = 2859738748;
var IFCCONNECTIONPOINTECCENTRICITY = 45288368;
var IFCCONNECTIONPOINTGEOMETRY = 2614616156;
var IFCCONNECTIONSURFACEGEOMETRY = 2732653382;
var IFCCONNECTIONVOLUMEGEOMETRY = 775493141;
var IFCCONSTRAINT = 1959218052;
var IFCCONSTRUCTIONEQUIPMENTRESOURCE = 3898045240;
var IFCCONSTRUCTIONEQUIPMENTRESOURCETYPE = 2185764099;
var IFCCONSTRUCTIONMATERIALRESOURCE = 1060000209;
var IFCCONSTRUCTIONMATERIALRESOURCETYPE = 4105962743;
var IFCCONSTRUCTIONPRODUCTRESOURCE = 488727124;
var IFCCONSTRUCTIONPRODUCTRESOURCETYPE = 1525564444;
var IFCCONSTRUCTIONRESOURCE = 2559216714;
var IFCCONSTRUCTIONRESOURCETYPE = 2574617495;
var IFCCONTEXT = 3419103109;
var IFCCONTEXTDEPENDENTUNIT = 3050246964;
var IFCCONTROL = 3293443760;
var IFCCONTROLLER = 25142252;
var IFCCONTROLLERTYPE = 578613899;
var IFCCONVERSIONBASEDUNIT = 2889183280;
var IFCCONVERSIONBASEDUNITWITHOFFSET = 2713554722;
var IFCCOOLEDBEAM = 4136498852;
var IFCCOOLEDBEAMTYPE = 335055490;
var IFCCOOLINGTOWER = 3640358203;
var IFCCOOLINGTOWERTYPE = 2954562838;
var IFCCOORDINATEOPERATION = 1785450214;
var IFCCOORDINATEREFERENCESYSTEM = 1466758467;
var IFCCOSTITEM = 3895139033;
var IFCCOSTSCHEDULE = 1419761937;
var IFCCOSTVALUE = 602808272;
var IFCCOVERING = 1973544240;
var IFCCOVERINGTYPE = 1916426348;
var IFCCREWRESOURCE = 3295246426;
var IFCCREWRESOURCETYPE = 1815067380;
var IFCCSGPRIMITIVE3D = 2506170314;
var IFCCSGSOLID = 2147822146;
var IFCCURRENCYRELATIONSHIP = 539742890;
var IFCCURTAINWALL = 3495092785;
var IFCCURTAINWALLTYPE = 1457835157;
var IFCCURVE = 2601014836;
var IFCCURVEBOUNDEDPLANE = 2827736869;
var IFCCURVEBOUNDEDSURFACE = 2629017746;
var IFCCURVESEGMENT2D = 1186437898;
var IFCCURVESTYLE = 3800577675;
var IFCCURVESTYLEFONT = 1105321065;
var IFCCURVESTYLEFONTANDSCALING = 2367409068;
var IFCCURVESTYLEFONTPATTERN = 3510044353;
var IFCCYLINDRICALSURFACE = 1213902940;
var IFCDAMPER = 4074379575;
var IFCDAMPERTYPE = 3961806047;
var IFCDEEPFOUNDATION = 3426335179;
var IFCDEEPFOUNDATIONTYPE = 1306400036;
var IFCDERIVEDPROFILEDEF = 3632507154;
var IFCDERIVEDUNIT = 1765591967;
var IFCDERIVEDUNITELEMENT = 1045800335;
var IFCDIMENSIONALEXPONENTS = 2949456006;
var IFCDIRECTION = 32440307;
var IFCDISCRETEACCESSORY = 1335981549;
var IFCDISCRETEACCESSORYTYPE = 2635815018;
var IFCDISTANCEEXPRESSION = 1945343521;
var IFCDISTRIBUTIONCHAMBERELEMENT = 1052013943;
var IFCDISTRIBUTIONCHAMBERELEMENTTYPE = 1599208980;
var IFCDISTRIBUTIONCIRCUIT = 562808652;
var IFCDISTRIBUTIONCONTROLELEMENT = 1062813311;
var IFCDISTRIBUTIONCONTROLELEMENTTYPE = 2063403501;
var IFCDISTRIBUTIONELEMENT = 1945004755;
var IFCDISTRIBUTIONELEMENTTYPE = 3256556792;
var IFCDISTRIBUTIONFLOWELEMENT = 3040386961;
var IFCDISTRIBUTIONFLOWELEMENTTYPE = 3849074793;
var IFCDISTRIBUTIONPORT = 3041715199;
var IFCDISTRIBUTIONSYSTEM = 3205830791;
var IFCDOCUMENTINFORMATION = 1154170062;
var IFCDOCUMENTINFORMATIONRELATIONSHIP = 770865208;
var IFCDOCUMENTREFERENCE = 3732053477;
var IFCDOOR = 395920057;
var IFCDOORLININGPROPERTIES = 2963535650;
var IFCDOORPANELPROPERTIES = 1714330368;
var IFCDOORSTANDARDCASE = 3242481149;
var IFCDOORSTYLE = 526551008;
var IFCDOORTYPE = 2323601079;
var IFCDRAUGHTINGPREDEFINEDCOLOUR = 445594917;
var IFCDRAUGHTINGPREDEFINEDCURVEFONT = 4006246654;
var IFCDUCTFITTING = 342316401;
var IFCDUCTFITTINGTYPE = 869906466;
var IFCDUCTSEGMENT = 3518393246;
var IFCDUCTSEGMENTTYPE = 3760055223;
var IFCDUCTSILENCER = 1360408905;
var IFCDUCTSILENCERTYPE = 2030761528;
var IFCEDGE = 3900360178;
var IFCEDGECURVE = 476780140;
var IFCEDGELOOP = 1472233963;
var IFCELECTRICAPPLIANCE = 1904799276;
var IFCELECTRICAPPLIANCETYPE = 663422040;
var IFCELECTRICDISTRIBUTIONBOARD = 862014818;
var IFCELECTRICDISTRIBUTIONBOARDTYPE = 2417008758;
var IFCELECTRICFLOWSTORAGEDEVICE = 3310460725;
var IFCELECTRICFLOWSTORAGEDEVICETYPE = 3277789161;
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var IFCSURFACEOFREVOLUTION = 4124788165;
var IFCSURFACEREINFORCEMENTAREA = 2934153892;
var IFCSURFACESTYLE = 1300840506;
var IFCSURFACESTYLELIGHTING = 3303107099;
var IFCSURFACESTYLEREFRACTION = 1607154358;
var IFCSURFACESTYLERENDERING = 1878645084;
var IFCSURFACESTYLESHADING = 846575682;
var IFCSURFACESTYLEWITHTEXTURES = 1351298697;
var IFCSURFACETEXTURE = 626085974;
var IFCSWEPTAREASOLID = 2247615214;
var IFCSWEPTDISKSOLID = 1260650574;
var IFCSWEPTDISKSOLIDPOLYGONAL = 1096409881;
var IFCSWEPTSURFACE = 230924584;
var IFCSWITCHINGDEVICE = 1162798199;
var IFCSWITCHINGDEVICETYPE = 2315554128;
var IFCSYSTEM = 2254336722;
var IFCSYSTEMFURNITUREELEMENT = 413509423;
var IFCSYSTEMFURNITUREELEMENTTYPE = 1580310250;
var IFCTSHAPEPROFILEDEF = 3071757647;
var IFCTABLE = 985171141;
var IFCTABLECOLUMN = 2043862942;
var IFCTABLEROW = 531007025;
var IFCTANK = 812556717;
var IFCTANKTYPE = 5716631;
var IFCTASK = 3473067441;
var IFCTASKTIME = 1549132990;
var IFCTASKTIMERECURRING = 2771591690;
var IFCTASKTYPE = 3206491090;
var IFCTELECOMADDRESS = 912023232;
var IFCTENDON = 3824725483;
var IFCTENDONANCHOR = 2347447852;
var IFCTENDONANCHORTYPE = 3081323446;
var IFCTENDONCONDUIT = 3663046924;
var IFCTENDONCONDUITTYPE = 2281632017;
var IFCTENDONTYPE = 2415094496;
var IFCTESSELLATEDFACESET = 2387106220;
var IFCTESSELLATEDITEM = 901063453;
var IFCTEXTLITERAL = 4282788508;
var IFCTEXTLITERALWITHEXTENT = 3124975700;
var IFCTEXTSTYLE = 1447204868;
var IFCTEXTSTYLEFONTMODEL = 1983826977;
var IFCTEXTSTYLEFORDEFINEDFONT = 2636378356;
var IFCTEXTSTYLETEXTMODEL = 1640371178;
var IFCTEXTURECOORDINATE = 280115917;
var IFCTEXTURECOORDINATEGENERATOR = 1742049831;
var IFCTEXTUREMAP = 2552916305;
var IFCTEXTUREVERTEX = 1210645708;
var IFCTEXTUREVERTEXLIST = 3611470254;
var IFCTIMEPERIOD = 1199560280;
var IFCTIMESERIES = 3101149627;
var IFCTIMESERIESVALUE = 581633288;
var IFCTOPOLOGICALREPRESENTATIONITEM = 1377556343;
var IFCTOPOLOGYREPRESENTATION = 1735638870;
var IFCTOROIDALSURFACE = 1935646853;
var IFCTRANSFORMER = 3825984169;
var IFCTRANSFORMERTYPE = 1692211062;
var IFCTRANSITIONCURVESEGMENT2D = 2595432518;
var IFCTRANSPORTELEMENT = 1620046519;
var IFCTRANSPORTELEMENTTYPE = 2097647324;
var IFCTRAPEZIUMPROFILEDEF = 2715220739;
var IFCTRIANGULATEDFACESET = 2916149573;
var IFCTRIANGULATEDIRREGULARNETWORK = 1229763772;
var IFCTRIMMEDCURVE = 3593883385;
var IFCTUBEBUNDLE = 3026737570;
var IFCTUBEBUNDLETYPE = 1600972822;
var IFCTYPEOBJECT = 1628702193;
var IFCTYPEPROCESS = 3736923433;
var IFCTYPEPRODUCT = 2347495698;
var IFCTYPERESOURCE = 3698973494;
var IFCUSHAPEPROFILEDEF = 427810014;
var IFCUNITASSIGNMENT = 180925521;
var IFCUNITARYCONTROLELEMENT = 630975310;
var IFCUNITARYCONTROLELEMENTTYPE = 3179687236;
var IFCUNITARYEQUIPMENT = 4292641817;
var IFCUNITARYEQUIPMENTTYPE = 1911125066;
var IFCVALVE = 4207607924;
var IFCVALVETYPE = 728799441;
var IFCVECTOR = 1417489154;
var IFCVERTEX = 2799835756;
var IFCVERTEXLOOP = 2759199220;
var IFCVERTEXPOINT = 1907098498;
var IFCVIBRATIONDAMPER = 1530820697;
var IFCVIBRATIONDAMPERTYPE = 3956297820;
var IFCVIBRATIONISOLATOR = 2391383451;
var IFCVIBRATIONISOLATORTYPE = 3313531582;
var IFCVIRTUALELEMENT = 2769231204;
var IFCVIRTUALGRIDINTERSECTION = 891718957;
var IFCVOIDINGFEATURE = 926996030;
var IFCWALL = 2391406946;
var IFCWALLELEMENTEDCASE = 4156078855;
var IFCWALLSTANDARDCASE = 3512223829;
var IFCWALLTYPE = 1898987631;
var IFCWASTETERMINAL = 4237592921;
var IFCWASTETERMINALTYPE = 1133259667;
var IFCWINDOW = 3304561284;
var IFCWINDOWLININGPROPERTIES = 336235671;
var IFCWINDOWPANELPROPERTIES = 512836454;
var IFCWINDOWSTANDARDCASE = 486154966;
var IFCWINDOWSTYLE = 1299126871;
var IFCWINDOWTYPE = 4009809668;
var IFCWORKCALENDAR = 4088093105;
var IFCWORKCONTROL = 1028945134;
var IFCWORKPLAN = 4218914973;
var IFCWORKSCHEDULE = 3342526732;
var IFCWORKTIME = 1236880293;
var IFCZSHAPEPROFILEDEF = 2543172580;
var IFCZONE = 1033361043;
var IfcElements = [
  4288193352,
  1634111441,
  177149247,
  2056796094,
  3087945054,
  277319702,
  753842376,
  2906023776,
  32344328,
  2979338954,
  1095909175,
  2938176219,
  635142910,
  3758799889,
  1051757585,
  4217484030,
  3902619387,
  3296154744,
  1677625105,
  639361253,
  843113511,
  905975707,
  3221913625,
  3571504051,
  2272882330,
  25142252,
  4136498852,
  3640358203,
  1973544240,
  3495092785,
  4074379575,
  1335981549,
  1052013943,
  1062813311,
  1945004755,
  3040386961,
  395920057,
  3242481149,
  342316401,
  3518393246,
  1360408905,
  1904799276,
  862014818,
  3310460725,
  264262732,
  402227799,
  1003880860,
  4123344466,
  1658829314,
  2814081492,
  3747195512,
  484807127,
  3415622556,
  647756555,
  819412036,
  1426591983,
  2058353004,
  4278956645,
  182646315,
  2188021234,
  3132237377,
  987401354,
  707683696,
  2223149337,
  3508470533,
  900683007,
  263784265,
  1509553395,
  3493046030,
  3319311131,
  2068733104,
  4175244083,
  2176052936,
  76236018,
  629592764,
  377706215,
  1437502449,
  1073191201,
  1911478936,
  2474470126,
  3588315303,
  3079942009,
  3694346114,
  1687234759,
  310824031,
  3612865200,
  3171933400,
  1156407060,
  3651124850,
  738039164,
  2295281155,
  90941305,
  2262370178,
  3024970846,
  3283111854,
  979691226,
  2320036040,
  2016517767,
  3053780830,
  4086658281,
  1329646415,
  1529196076,
  3127900445,
  3027962421,
  3420628829,
  1999602285,
  1404847402,
  331165859,
  4252922144,
  3101698114,
  1162798199,
  413509423,
  812556717,
  3824725483,
  2347447852,
  3825984169,
  1620046519,
  3026737570,
  630975310,
  4292641817,
  4207607924,
  2391383451,
  2769231204,
  926996030,
  2391406946,
  4156078855,
  3512223829,
  4237592921,
  3304561284,
  486154966
];

// dist/ifc2x4_helper.ts
var FromRawLineData = {};
FromRawLineData[IFCACTIONREQUEST] = (d) => {
  return IfcActionRequest.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCACTOR] = (d) => {
  return IfcActor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCACTORROLE] = (d) => {
  return IfcActorRole.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCACTUATOR] = (d) => {
  return IfcActuator.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCACTUATORTYPE] = (d) => {
  return IfcActuatorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCADDRESS] = (d) => {
  return IfcAddress.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCADVANCEDBREP] = (d) => {
  return IfcAdvancedBrep.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCADVANCEDBREPWITHVOIDS] = (d) => {
  return IfcAdvancedBrepWithVoids.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCADVANCEDFACE] = (d) => {
  return IfcAdvancedFace.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAIRTERMINAL] = (d) => {
  return IfcAirTerminal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAIRTERMINALBOX] = (d) => {
  return IfcAirTerminalBox.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAIRTERMINALBOXTYPE] = (d) => {
  return IfcAirTerminalBoxType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAIRTERMINALTYPE] = (d) => {
  return IfcAirTerminalType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAIRTOAIRHEATRECOVERY] = (d) => {
  return IfcAirToAirHeatRecovery.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAIRTOAIRHEATRECOVERYTYPE] = (d) => {
  return IfcAirToAirHeatRecoveryType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALARM] = (d) => {
  return IfcAlarm.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALARMTYPE] = (d) => {
  return IfcAlarmType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT] = (d) => {
  return IfcAlignment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DHORIZONTAL] = (d) => {
  return IfcAlignment2DHorizontal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DHORIZONTALSEGMENT] = (d) => {
  return IfcAlignment2DHorizontalSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DSEGMENT] = (d) => {
  return IfcAlignment2DSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DVERSEGCIRCULARARC] = (d) => {
  return IfcAlignment2DVerSegCircularArc.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DVERSEGLINE] = (d) => {
  return IfcAlignment2DVerSegLine.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DVERSEGPARABOLICARC] = (d) => {
  return IfcAlignment2DVerSegParabolicArc.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DVERTICAL] = (d) => {
  return IfcAlignment2DVertical.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENT2DVERTICALSEGMENT] = (d) => {
  return IfcAlignment2DVerticalSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCALIGNMENTCURVE] = (d) => {
  return IfcAlignmentCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCANNOTATION] = (d) => {
  return IfcAnnotation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCANNOTATIONFILLAREA] = (d) => {
  return IfcAnnotationFillArea.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAPPLICATION] = (d) => {
  return IfcApplication.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAPPLIEDVALUE] = (d) => {
  return IfcAppliedValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAPPROVAL] = (d) => {
  return IfcApproval.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAPPROVALRELATIONSHIP] = (d) => {
  return IfcApprovalRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCARBITRARYCLOSEDPROFILEDEF] = (d) => {
  return IfcArbitraryClosedProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCARBITRARYOPENPROFILEDEF] = (d) => {
  return IfcArbitraryOpenProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCARBITRARYPROFILEDEFWITHVOIDS] = (d) => {
  return IfcArbitraryProfileDefWithVoids.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCASSET] = (d) => {
  return IfcAsset.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCASYMMETRICISHAPEPROFILEDEF] = (d) => {
  return IfcAsymmetricIShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAUDIOVISUALAPPLIANCE] = (d) => {
  return IfcAudioVisualAppliance.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAUDIOVISUALAPPLIANCETYPE] = (d) => {
  return IfcAudioVisualApplianceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAXIS1PLACEMENT] = (d) => {
  return IfcAxis1Placement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAXIS2PLACEMENT2D] = (d) => {
  return IfcAxis2Placement2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCAXIS2PLACEMENT3D] = (d) => {
  return IfcAxis2Placement3D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBSPLINECURVE] = (d) => {
  return IfcBSplineCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBSPLINECURVEWITHKNOTS] = (d) => {
  return IfcBSplineCurveWithKnots.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBSPLINESURFACE] = (d) => {
  return IfcBSplineSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBSPLINESURFACEWITHKNOTS] = (d) => {
  return IfcBSplineSurfaceWithKnots.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBEAM] = (d) => {
  return IfcBeam.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBEAMSTANDARDCASE] = (d) => {
  return IfcBeamStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBEAMTYPE] = (d) => {
  return IfcBeamType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBEARING] = (d) => {
  return IfcBearing.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBEARINGTYPE] = (d) => {
  return IfcBearingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBLOBTEXTURE] = (d) => {
  return IfcBlobTexture.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBLOCK] = (d) => {
  return IfcBlock.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOILER] = (d) => {
  return IfcBoiler.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOILERTYPE] = (d) => {
  return IfcBoilerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOOLEANCLIPPINGRESULT] = (d) => {
  return IfcBooleanClippingResult.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOOLEANRESULT] = (d) => {
  return IfcBooleanResult.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDARYCONDITION] = (d) => {
  return IfcBoundaryCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDARYCURVE] = (d) => {
  return IfcBoundaryCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDARYEDGECONDITION] = (d) => {
  return IfcBoundaryEdgeCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDARYFACECONDITION] = (d) => {
  return IfcBoundaryFaceCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDARYNODECONDITION] = (d) => {
  return IfcBoundaryNodeCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDARYNODECONDITIONWARPING] = (d) => {
  return IfcBoundaryNodeConditionWarping.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDEDCURVE] = (d) => {
  return IfcBoundedCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDEDSURFACE] = (d) => {
  return IfcBoundedSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOUNDINGBOX] = (d) => {
  return IfcBoundingBox.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBOXEDHALFSPACE] = (d) => {
  return IfcBoxedHalfSpace.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBRIDGE] = (d) => {
  return IfcBridge.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBRIDGEPART] = (d) => {
  return IfcBridgePart.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDING] = (d) => {
  return IfcBuilding.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGELEMENT] = (d) => {
  return IfcBuildingElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGELEMENTPART] = (d) => {
  return IfcBuildingElementPart.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGELEMENTPARTTYPE] = (d) => {
  return IfcBuildingElementPartType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGELEMENTPROXY] = (d) => {
  return IfcBuildingElementProxy.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGELEMENTPROXYTYPE] = (d) => {
  return IfcBuildingElementProxyType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGELEMENTTYPE] = (d) => {
  return IfcBuildingElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGSTOREY] = (d) => {
  return IfcBuildingStorey.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBUILDINGSYSTEM] = (d) => {
  return IfcBuildingSystem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBURNER] = (d) => {
  return IfcBurner.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCBURNERTYPE] = (d) => {
  return IfcBurnerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCSHAPEPROFILEDEF] = (d) => {
  return IfcCShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLECARRIERFITTING] = (d) => {
  return IfcCableCarrierFitting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLECARRIERFITTINGTYPE] = (d) => {
  return IfcCableCarrierFittingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLECARRIERSEGMENT] = (d) => {
  return IfcCableCarrierSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLECARRIERSEGMENTTYPE] = (d) => {
  return IfcCableCarrierSegmentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLEFITTING] = (d) => {
  return IfcCableFitting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLEFITTINGTYPE] = (d) => {
  return IfcCableFittingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLESEGMENT] = (d) => {
  return IfcCableSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCABLESEGMENTTYPE] = (d) => {
  return IfcCableSegmentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCAISSONFOUNDATION] = (d) => {
  return IfcCaissonFoundation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCAISSONFOUNDATIONTYPE] = (d) => {
  return IfcCaissonFoundationType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANPOINT] = (d) => {
  return IfcCartesianPoint.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANPOINTLIST] = (d) => {
  return IfcCartesianPointList.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANPOINTLIST2D] = (d) => {
  return IfcCartesianPointList2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANPOINTLIST3D] = (d) => {
  return IfcCartesianPointList3D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANTRANSFORMATIONOPERATOR] = (d) => {
  return IfcCartesianTransformationOperator.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANTRANSFORMATIONOPERATOR2D] = (d) => {
  return IfcCartesianTransformationOperator2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANTRANSFORMATIONOPERATOR2DNONUNIFORM] = (d) => {
  return IfcCartesianTransformationOperator2DnonUniform.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANTRANSFORMATIONOPERATOR3D] = (d) => {
  return IfcCartesianTransformationOperator3D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCARTESIANTRANSFORMATIONOPERATOR3DNONUNIFORM] = (d) => {
  return IfcCartesianTransformationOperator3DnonUniform.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCENTERLINEPROFILEDEF] = (d) => {
  return IfcCenterLineProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCHILLER] = (d) => {
  return IfcChiller.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCHILLERTYPE] = (d) => {
  return IfcChillerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCHIMNEY] = (d) => {
  return IfcChimney.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCHIMNEYTYPE] = (d) => {
  return IfcChimneyType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCIRCLE] = (d) => {
  return IfcCircle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCIRCLEHOLLOWPROFILEDEF] = (d) => {
  return IfcCircleHollowProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCIRCLEPROFILEDEF] = (d) => {
  return IfcCircleProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCIRCULARARCSEGMENT2D] = (d) => {
  return IfcCircularArcSegment2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCIVILELEMENT] = (d) => {
  return IfcCivilElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCIVILELEMENTTYPE] = (d) => {
  return IfcCivilElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCLASSIFICATION] = (d) => {
  return IfcClassification.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCLASSIFICATIONREFERENCE] = (d) => {
  return IfcClassificationReference.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCLOSEDSHELL] = (d) => {
  return IfcClosedShell.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOIL] = (d) => {
  return IfcCoil.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOILTYPE] = (d) => {
  return IfcCoilType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOLOURRGB] = (d) => {
  return IfcColourRgb.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOLOURRGBLIST] = (d) => {
  return IfcColourRgbList.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOLOURSPECIFICATION] = (d) => {
  return IfcColourSpecification.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOLUMN] = (d) => {
  return IfcColumn.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOLUMNSTANDARDCASE] = (d) => {
  return IfcColumnStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOLUMNTYPE] = (d) => {
  return IfcColumnType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMMUNICATIONSAPPLIANCE] = (d) => {
  return IfcCommunicationsAppliance.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMMUNICATIONSAPPLIANCETYPE] = (d) => {
  return IfcCommunicationsApplianceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPLEXPROPERTY] = (d) => {
  return IfcComplexProperty.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPLEXPROPERTYTEMPLATE] = (d) => {
  return IfcComplexPropertyTemplate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPOSITECURVE] = (d) => {
  return IfcCompositeCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPOSITECURVEONSURFACE] = (d) => {
  return IfcCompositeCurveOnSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPOSITECURVESEGMENT] = (d) => {
  return IfcCompositeCurveSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPOSITEPROFILEDEF] = (d) => {
  return IfcCompositeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPRESSOR] = (d) => {
  return IfcCompressor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOMPRESSORTYPE] = (d) => {
  return IfcCompressorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONDENSER] = (d) => {
  return IfcCondenser.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONDENSERTYPE] = (d) => {
  return IfcCondenserType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONIC] = (d) => {
  return IfcConic.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTEDFACESET] = (d) => {
  return IfcConnectedFaceSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTIONCURVEGEOMETRY] = (d) => {
  return IfcConnectionCurveGeometry.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTIONGEOMETRY] = (d) => {
  return IfcConnectionGeometry.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTIONPOINTECCENTRICITY] = (d) => {
  return IfcConnectionPointEccentricity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTIONPOINTGEOMETRY] = (d) => {
  return IfcConnectionPointGeometry.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTIONSURFACEGEOMETRY] = (d) => {
  return IfcConnectionSurfaceGeometry.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONNECTIONVOLUMEGEOMETRY] = (d) => {
  return IfcConnectionVolumeGeometry.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRAINT] = (d) => {
  return IfcConstraint.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONEQUIPMENTRESOURCE] = (d) => {
  return IfcConstructionEquipmentResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONEQUIPMENTRESOURCETYPE] = (d) => {
  return IfcConstructionEquipmentResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONMATERIALRESOURCE] = (d) => {
  return IfcConstructionMaterialResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONMATERIALRESOURCETYPE] = (d) => {
  return IfcConstructionMaterialResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONPRODUCTRESOURCE] = (d) => {
  return IfcConstructionProductResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONPRODUCTRESOURCETYPE] = (d) => {
  return IfcConstructionProductResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONRESOURCE] = (d) => {
  return IfcConstructionResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONSTRUCTIONRESOURCETYPE] = (d) => {
  return IfcConstructionResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONTEXT] = (d) => {
  return IfcContext.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONTEXTDEPENDENTUNIT] = (d) => {
  return IfcContextDependentUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONTROL] = (d) => {
  return IfcControl.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONTROLLER] = (d) => {
  return IfcController.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONTROLLERTYPE] = (d) => {
  return IfcControllerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONVERSIONBASEDUNIT] = (d) => {
  return IfcConversionBasedUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCONVERSIONBASEDUNITWITHOFFSET] = (d) => {
  return IfcConversionBasedUnitWithOffset.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOOLEDBEAM] = (d) => {
  return IfcCooledBeam.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOOLEDBEAMTYPE] = (d) => {
  return IfcCooledBeamType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOOLINGTOWER] = (d) => {
  return IfcCoolingTower.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOOLINGTOWERTYPE] = (d) => {
  return IfcCoolingTowerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOORDINATEOPERATION] = (d) => {
  return IfcCoordinateOperation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOORDINATEREFERENCESYSTEM] = (d) => {
  return IfcCoordinateReferenceSystem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOSTITEM] = (d) => {
  return IfcCostItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOSTSCHEDULE] = (d) => {
  return IfcCostSchedule.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOSTVALUE] = (d) => {
  return IfcCostValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOVERING] = (d) => {
  return IfcCovering.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCOVERINGTYPE] = (d) => {
  return IfcCoveringType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCREWRESOURCE] = (d) => {
  return IfcCrewResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCREWRESOURCETYPE] = (d) => {
  return IfcCrewResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCSGPRIMITIVE3D] = (d) => {
  return IfcCsgPrimitive3D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCSGSOLID] = (d) => {
  return IfcCsgSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURRENCYRELATIONSHIP] = (d) => {
  return IfcCurrencyRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURTAINWALL] = (d) => {
  return IfcCurtainWall.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURTAINWALLTYPE] = (d) => {
  return IfcCurtainWallType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVE] = (d) => {
  return IfcCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVEBOUNDEDPLANE] = (d) => {
  return IfcCurveBoundedPlane.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVEBOUNDEDSURFACE] = (d) => {
  return IfcCurveBoundedSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVESEGMENT2D] = (d) => {
  return IfcCurveSegment2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVESTYLE] = (d) => {
  return IfcCurveStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVESTYLEFONT] = (d) => {
  return IfcCurveStyleFont.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVESTYLEFONTANDSCALING] = (d) => {
  return IfcCurveStyleFontAndScaling.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCURVESTYLEFONTPATTERN] = (d) => {
  return IfcCurveStyleFontPattern.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCCYLINDRICALSURFACE] = (d) => {
  return IfcCylindricalSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDAMPER] = (d) => {
  return IfcDamper.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDAMPERTYPE] = (d) => {
  return IfcDamperType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDEEPFOUNDATION] = (d) => {
  return IfcDeepFoundation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDEEPFOUNDATIONTYPE] = (d) => {
  return IfcDeepFoundationType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDERIVEDPROFILEDEF] = (d) => {
  return IfcDerivedProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDERIVEDUNIT] = (d) => {
  return IfcDerivedUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDERIVEDUNITELEMENT] = (d) => {
  return IfcDerivedUnitElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDIMENSIONALEXPONENTS] = (d) => {
  return IfcDimensionalExponents.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDIRECTION] = (d) => {
  return IfcDirection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISCRETEACCESSORY] = (d) => {
  return IfcDiscreteAccessory.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISCRETEACCESSORYTYPE] = (d) => {
  return IfcDiscreteAccessoryType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTANCEEXPRESSION] = (d) => {
  return IfcDistanceExpression.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONCHAMBERELEMENT] = (d) => {
  return IfcDistributionChamberElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONCHAMBERELEMENTTYPE] = (d) => {
  return IfcDistributionChamberElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONCIRCUIT] = (d) => {
  return IfcDistributionCircuit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONCONTROLELEMENT] = (d) => {
  return IfcDistributionControlElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONCONTROLELEMENTTYPE] = (d) => {
  return IfcDistributionControlElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONELEMENT] = (d) => {
  return IfcDistributionElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONELEMENTTYPE] = (d) => {
  return IfcDistributionElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONFLOWELEMENT] = (d) => {
  return IfcDistributionFlowElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONFLOWELEMENTTYPE] = (d) => {
  return IfcDistributionFlowElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONPORT] = (d) => {
  return IfcDistributionPort.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDISTRIBUTIONSYSTEM] = (d) => {
  return IfcDistributionSystem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOCUMENTINFORMATION] = (d) => {
  return IfcDocumentInformation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOCUMENTINFORMATIONRELATIONSHIP] = (d) => {
  return IfcDocumentInformationRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOCUMENTREFERENCE] = (d) => {
  return IfcDocumentReference.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOOR] = (d) => {
  return IfcDoor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOORLININGPROPERTIES] = (d) => {
  return IfcDoorLiningProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOORPANELPROPERTIES] = (d) => {
  return IfcDoorPanelProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOORSTANDARDCASE] = (d) => {
  return IfcDoorStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOORSTYLE] = (d) => {
  return IfcDoorStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDOORTYPE] = (d) => {
  return IfcDoorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDRAUGHTINGPREDEFINEDCOLOUR] = (d) => {
  return IfcDraughtingPreDefinedColour.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDRAUGHTINGPREDEFINEDCURVEFONT] = (d) => {
  return IfcDraughtingPreDefinedCurveFont.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDUCTFITTING] = (d) => {
  return IfcDuctFitting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDUCTFITTINGTYPE] = (d) => {
  return IfcDuctFittingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDUCTSEGMENT] = (d) => {
  return IfcDuctSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDUCTSEGMENTTYPE] = (d) => {
  return IfcDuctSegmentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDUCTSILENCER] = (d) => {
  return IfcDuctSilencer.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCDUCTSILENCERTYPE] = (d) => {
  return IfcDuctSilencerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEDGE] = (d) => {
  return IfcEdge.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEDGECURVE] = (d) => {
  return IfcEdgeCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEDGELOOP] = (d) => {
  return IfcEdgeLoop.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICAPPLIANCE] = (d) => {
  return IfcElectricAppliance.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICAPPLIANCETYPE] = (d) => {
  return IfcElectricApplianceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICDISTRIBUTIONBOARD] = (d) => {
  return IfcElectricDistributionBoard.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICDISTRIBUTIONBOARDTYPE] = (d) => {
  return IfcElectricDistributionBoardType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICFLOWSTORAGEDEVICE] = (d) => {
  return IfcElectricFlowStorageDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICFLOWSTORAGEDEVICETYPE] = (d) => {
  return IfcElectricFlowStorageDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICGENERATOR] = (d) => {
  return IfcElectricGenerator.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICGENERATORTYPE] = (d) => {
  return IfcElectricGeneratorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICMOTOR] = (d) => {
  return IfcElectricMotor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICMOTORTYPE] = (d) => {
  return IfcElectricMotorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICTIMECONTROL] = (d) => {
  return IfcElectricTimeControl.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELECTRICTIMECONTROLTYPE] = (d) => {
  return IfcElectricTimeControlType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENT] = (d) => {
  return IfcElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTASSEMBLY] = (d) => {
  return IfcElementAssembly.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTASSEMBLYTYPE] = (d) => {
  return IfcElementAssemblyType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTCOMPONENT] = (d) => {
  return IfcElementComponent.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTCOMPONENTTYPE] = (d) => {
  return IfcElementComponentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTQUANTITY] = (d) => {
  return IfcElementQuantity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTTYPE] = (d) => {
  return IfcElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELEMENTARYSURFACE] = (d) => {
  return IfcElementarySurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELLIPSE] = (d) => {
  return IfcEllipse.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCELLIPSEPROFILEDEF] = (d) => {
  return IfcEllipseProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCENERGYCONVERSIONDEVICE] = (d) => {
  return IfcEnergyConversionDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCENERGYCONVERSIONDEVICETYPE] = (d) => {
  return IfcEnergyConversionDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCENGINE] = (d) => {
  return IfcEngine.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCENGINETYPE] = (d) => {
  return IfcEngineType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVAPORATIVECOOLER] = (d) => {
  return IfcEvaporativeCooler.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVAPORATIVECOOLERTYPE] = (d) => {
  return IfcEvaporativeCoolerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVAPORATOR] = (d) => {
  return IfcEvaporator.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVAPORATORTYPE] = (d) => {
  return IfcEvaporatorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVENT] = (d) => {
  return IfcEvent.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVENTTIME] = (d) => {
  return IfcEventTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEVENTTYPE] = (d) => {
  return IfcEventType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTENDEDPROPERTIES] = (d) => {
  return IfcExtendedProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALINFORMATION] = (d) => {
  return IfcExternalInformation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALREFERENCE] = (d) => {
  return IfcExternalReference.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALREFERENCERELATIONSHIP] = (d) => {
  return IfcExternalReferenceRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALSPATIALELEMENT] = (d) => {
  return IfcExternalSpatialElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALSPATIALSTRUCTUREELEMENT] = (d) => {
  return IfcExternalSpatialStructureElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALLYDEFINEDHATCHSTYLE] = (d) => {
  return IfcExternallyDefinedHatchStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALLYDEFINEDSURFACESTYLE] = (d) => {
  return IfcExternallyDefinedSurfaceStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTERNALLYDEFINEDTEXTFONT] = (d) => {
  return IfcExternallyDefinedTextFont.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTRUDEDAREASOLID] = (d) => {
  return IfcExtrudedAreaSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCEXTRUDEDAREASOLIDTAPERED] = (d) => {
  return IfcExtrudedAreaSolidTapered.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACE] = (d) => {
  return IfcFace.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACEBASEDSURFACEMODEL] = (d) => {
  return IfcFaceBasedSurfaceModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACEBOUND] = (d) => {
  return IfcFaceBound.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACEOUTERBOUND] = (d) => {
  return IfcFaceOuterBound.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACESURFACE] = (d) => {
  return IfcFaceSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACETEDBREP] = (d) => {
  return IfcFacetedBrep.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACETEDBREPWITHVOIDS] = (d) => {
  return IfcFacetedBrepWithVoids.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACILITY] = (d) => {
  return IfcFacility.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFACILITYPART] = (d) => {
  return IfcFacilityPart.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFAILURECONNECTIONCONDITION] = (d) => {
  return IfcFailureConnectionCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFAN] = (d) => {
  return IfcFan.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFANTYPE] = (d) => {
  return IfcFanType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFASTENER] = (d) => {
  return IfcFastener.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFASTENERTYPE] = (d) => {
  return IfcFastenerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFEATUREELEMENT] = (d) => {
  return IfcFeatureElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFEATUREELEMENTADDITION] = (d) => {
  return IfcFeatureElementAddition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFEATUREELEMENTSUBTRACTION] = (d) => {
  return IfcFeatureElementSubtraction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFILLAREASTYLE] = (d) => {
  return IfcFillAreaStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFILLAREASTYLEHATCHING] = (d) => {
  return IfcFillAreaStyleHatching.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFILLAREASTYLETILES] = (d) => {
  return IfcFillAreaStyleTiles.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFILTER] = (d) => {
  return IfcFilter.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFILTERTYPE] = (d) => {
  return IfcFilterType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFIRESUPPRESSIONTERMINAL] = (d) => {
  return IfcFireSuppressionTerminal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFIRESUPPRESSIONTERMINALTYPE] = (d) => {
  return IfcFireSuppressionTerminalType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFIXEDREFERENCESWEPTAREASOLID] = (d) => {
  return IfcFixedReferenceSweptAreaSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWCONTROLLER] = (d) => {
  return IfcFlowController.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWCONTROLLERTYPE] = (d) => {
  return IfcFlowControllerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWFITTING] = (d) => {
  return IfcFlowFitting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWFITTINGTYPE] = (d) => {
  return IfcFlowFittingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWINSTRUMENT] = (d) => {
  return IfcFlowInstrument.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWINSTRUMENTTYPE] = (d) => {
  return IfcFlowInstrumentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWMETER] = (d) => {
  return IfcFlowMeter.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWMETERTYPE] = (d) => {
  return IfcFlowMeterType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWMOVINGDEVICE] = (d) => {
  return IfcFlowMovingDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWMOVINGDEVICETYPE] = (d) => {
  return IfcFlowMovingDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWSEGMENT] = (d) => {
  return IfcFlowSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWSEGMENTTYPE] = (d) => {
  return IfcFlowSegmentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWSTORAGEDEVICE] = (d) => {
  return IfcFlowStorageDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWSTORAGEDEVICETYPE] = (d) => {
  return IfcFlowStorageDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWTERMINAL] = (d) => {
  return IfcFlowTerminal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWTERMINALTYPE] = (d) => {
  return IfcFlowTerminalType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWTREATMENTDEVICE] = (d) => {
  return IfcFlowTreatmentDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFLOWTREATMENTDEVICETYPE] = (d) => {
  return IfcFlowTreatmentDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFOOTING] = (d) => {
  return IfcFooting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFOOTINGTYPE] = (d) => {
  return IfcFootingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFURNISHINGELEMENT] = (d) => {
  return IfcFurnishingElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFURNISHINGELEMENTTYPE] = (d) => {
  return IfcFurnishingElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFURNITURE] = (d) => {
  return IfcFurniture.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCFURNITURETYPE] = (d) => {
  return IfcFurnitureType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOGRAPHICELEMENT] = (d) => {
  return IfcGeographicElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOGRAPHICELEMENTTYPE] = (d) => {
  return IfcGeographicElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOMETRICCURVESET] = (d) => {
  return IfcGeometricCurveSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOMETRICREPRESENTATIONCONTEXT] = (d) => {
  return IfcGeometricRepresentationContext.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOMETRICREPRESENTATIONITEM] = (d) => {
  return IfcGeometricRepresentationItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOMETRICREPRESENTATIONSUBCONTEXT] = (d) => {
  return IfcGeometricRepresentationSubContext.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGEOMETRICSET] = (d) => {
  return IfcGeometricSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGRID] = (d) => {
  return IfcGrid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGRIDAXIS] = (d) => {
  return IfcGridAxis.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGRIDPLACEMENT] = (d) => {
  return IfcGridPlacement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCGROUP] = (d) => {
  return IfcGroup.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCHALFSPACESOLID] = (d) => {
  return IfcHalfSpaceSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCHEATEXCHANGER] = (d) => {
  return IfcHeatExchanger.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCHEATEXCHANGERTYPE] = (d) => {
  return IfcHeatExchangerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCHUMIDIFIER] = (d) => {
  return IfcHumidifier.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCHUMIDIFIERTYPE] = (d) => {
  return IfcHumidifierType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCISHAPEPROFILEDEF] = (d) => {
  return IfcIShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCIMAGETEXTURE] = (d) => {
  return IfcImageTexture.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINDEXEDCOLOURMAP] = (d) => {
  return IfcIndexedColourMap.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINDEXEDPOLYCURVE] = (d) => {
  return IfcIndexedPolyCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINDEXEDPOLYGONALFACE] = (d) => {
  return IfcIndexedPolygonalFace.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINDEXEDPOLYGONALFACEWITHVOIDS] = (d) => {
  return IfcIndexedPolygonalFaceWithVoids.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINDEXEDTEXTUREMAP] = (d) => {
  return IfcIndexedTextureMap.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINDEXEDTRIANGLETEXTUREMAP] = (d) => {
  return IfcIndexedTriangleTextureMap.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINTERCEPTOR] = (d) => {
  return IfcInterceptor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINTERCEPTORTYPE] = (d) => {
  return IfcInterceptorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINTERSECTIONCURVE] = (d) => {
  return IfcIntersectionCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCINVENTORY] = (d) => {
  return IfcInventory.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCIRREGULARTIMESERIES] = (d) => {
  return IfcIrregularTimeSeries.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCIRREGULARTIMESERIESVALUE] = (d) => {
  return IfcIrregularTimeSeriesValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCJUNCTIONBOX] = (d) => {
  return IfcJunctionBox.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCJUNCTIONBOXTYPE] = (d) => {
  return IfcJunctionBoxType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLSHAPEPROFILEDEF] = (d) => {
  return IfcLShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLABORRESOURCE] = (d) => {
  return IfcLaborResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLABORRESOURCETYPE] = (d) => {
  return IfcLaborResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLAGTIME] = (d) => {
  return IfcLagTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLAMP] = (d) => {
  return IfcLamp.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLAMPTYPE] = (d) => {
  return IfcLampType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIBRARYINFORMATION] = (d) => {
  return IfcLibraryInformation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIBRARYREFERENCE] = (d) => {
  return IfcLibraryReference.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTDISTRIBUTIONDATA] = (d) => {
  return IfcLightDistributionData.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTFIXTURE] = (d) => {
  return IfcLightFixture.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTFIXTURETYPE] = (d) => {
  return IfcLightFixtureType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTINTENSITYDISTRIBUTION] = (d) => {
  return IfcLightIntensityDistribution.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTSOURCE] = (d) => {
  return IfcLightSource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTSOURCEAMBIENT] = (d) => {
  return IfcLightSourceAmbient.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTSOURCEDIRECTIONAL] = (d) => {
  return IfcLightSourceDirectional.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTSOURCEGONIOMETRIC] = (d) => {
  return IfcLightSourceGoniometric.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTSOURCEPOSITIONAL] = (d) => {
  return IfcLightSourcePositional.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLIGHTSOURCESPOT] = (d) => {
  return IfcLightSourceSpot.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLINE] = (d) => {
  return IfcLine.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLINESEGMENT2D] = (d) => {
  return IfcLineSegment2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLINEARPLACEMENT] = (d) => {
  return IfcLinearPlacement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLINEARPOSITIONINGELEMENT] = (d) => {
  return IfcLinearPositioningElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLOCALPLACEMENT] = (d) => {
  return IfcLocalPlacement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCLOOP] = (d) => {
  return IfcLoop.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMANIFOLDSOLIDBREP] = (d) => {
  return IfcManifoldSolidBrep.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMAPCONVERSION] = (d) => {
  return IfcMapConversion.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMAPPEDITEM] = (d) => {
  return IfcMappedItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIAL] = (d) => {
  return IfcMaterial.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALCLASSIFICATIONRELATIONSHIP] = (d) => {
  return IfcMaterialClassificationRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALCONSTITUENT] = (d) => {
  return IfcMaterialConstituent.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALCONSTITUENTSET] = (d) => {
  return IfcMaterialConstituentSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALDEFINITION] = (d) => {
  return IfcMaterialDefinition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALDEFINITIONREPRESENTATION] = (d) => {
  return IfcMaterialDefinitionRepresentation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALLAYER] = (d) => {
  return IfcMaterialLayer.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALLAYERSET] = (d) => {
  return IfcMaterialLayerSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALLAYERSETUSAGE] = (d) => {
  return IfcMaterialLayerSetUsage.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALLAYERWITHOFFSETS] = (d) => {
  return IfcMaterialLayerWithOffsets.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALLIST] = (d) => {
  return IfcMaterialList.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALPROFILE] = (d) => {
  return IfcMaterialProfile.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALPROFILESET] = (d) => {
  return IfcMaterialProfileSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALPROFILESETUSAGE] = (d) => {
  return IfcMaterialProfileSetUsage.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALPROFILESETUSAGETAPERING] = (d) => {
  return IfcMaterialProfileSetUsageTapering.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALPROFILEWITHOFFSETS] = (d) => {
  return IfcMaterialProfileWithOffsets.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALPROPERTIES] = (d) => {
  return IfcMaterialProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALRELATIONSHIP] = (d) => {
  return IfcMaterialRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMATERIALUSAGEDEFINITION] = (d) => {
  return IfcMaterialUsageDefinition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMEASUREWITHUNIT] = (d) => {
  return IfcMeasureWithUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMECHANICALFASTENER] = (d) => {
  return IfcMechanicalFastener.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMECHANICALFASTENERTYPE] = (d) => {
  return IfcMechanicalFastenerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMEDICALDEVICE] = (d) => {
  return IfcMedicalDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMEDICALDEVICETYPE] = (d) => {
  return IfcMedicalDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMEMBER] = (d) => {
  return IfcMember.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMEMBERSTANDARDCASE] = (d) => {
  return IfcMemberStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMEMBERTYPE] = (d) => {
  return IfcMemberType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMETRIC] = (d) => {
  return IfcMetric.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMIRROREDPROFILEDEF] = (d) => {
  return IfcMirroredProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMONETARYUNIT] = (d) => {
  return IfcMonetaryUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMOTORCONNECTION] = (d) => {
  return IfcMotorConnection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCMOTORCONNECTIONTYPE] = (d) => {
  return IfcMotorConnectionType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCNAMEDUNIT] = (d) => {
  return IfcNamedUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOBJECT] = (d) => {
  return IfcObject.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOBJECTDEFINITION] = (d) => {
  return IfcObjectDefinition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOBJECTPLACEMENT] = (d) => {
  return IfcObjectPlacement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOBJECTIVE] = (d) => {
  return IfcObjective.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOCCUPANT] = (d) => {
  return IfcOccupant.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOFFSETCURVE] = (d) => {
  return IfcOffsetCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOFFSETCURVE2D] = (d) => {
  return IfcOffsetCurve2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOFFSETCURVE3D] = (d) => {
  return IfcOffsetCurve3D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOFFSETCURVEBYDISTANCES] = (d) => {
  return IfcOffsetCurveByDistances.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOPENSHELL] = (d) => {
  return IfcOpenShell.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOPENINGELEMENT] = (d) => {
  return IfcOpeningElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOPENINGSTANDARDCASE] = (d) => {
  return IfcOpeningStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCORGANIZATION] = (d) => {
  return IfcOrganization.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCORGANIZATIONRELATIONSHIP] = (d) => {
  return IfcOrganizationRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCORIENTATIONEXPRESSION] = (d) => {
  return IfcOrientationExpression.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCORIENTEDEDGE] = (d) => {
  return IfcOrientedEdge.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOUTERBOUNDARYCURVE] = (d) => {
  return IfcOuterBoundaryCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOUTLET] = (d) => {
  return IfcOutlet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOUTLETTYPE] = (d) => {
  return IfcOutletType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCOWNERHISTORY] = (d) => {
  return IfcOwnerHistory.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPARAMETERIZEDPROFILEDEF] = (d) => {
  return IfcParameterizedProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPATH] = (d) => {
  return IfcPath.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPCURVE] = (d) => {
  return IfcPcurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPERFORMANCEHISTORY] = (d) => {
  return IfcPerformanceHistory.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPERMEABLECOVERINGPROPERTIES] = (d) => {
  return IfcPermeableCoveringProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPERMIT] = (d) => {
  return IfcPermit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPERSON] = (d) => {
  return IfcPerson.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPERSONANDORGANIZATION] = (d) => {
  return IfcPersonAndOrganization.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPHYSICALCOMPLEXQUANTITY] = (d) => {
  return IfcPhysicalComplexQuantity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPHYSICALQUANTITY] = (d) => {
  return IfcPhysicalQuantity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPHYSICALSIMPLEQUANTITY] = (d) => {
  return IfcPhysicalSimpleQuantity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPILE] = (d) => {
  return IfcPile.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPILETYPE] = (d) => {
  return IfcPileType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPIPEFITTING] = (d) => {
  return IfcPipeFitting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPIPEFITTINGTYPE] = (d) => {
  return IfcPipeFittingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPIPESEGMENT] = (d) => {
  return IfcPipeSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPIPESEGMENTTYPE] = (d) => {
  return IfcPipeSegmentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPIXELTEXTURE] = (d) => {
  return IfcPixelTexture.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLACEMENT] = (d) => {
  return IfcPlacement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLANARBOX] = (d) => {
  return IfcPlanarBox.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLANAREXTENT] = (d) => {
  return IfcPlanarExtent.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLANE] = (d) => {
  return IfcPlane.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLATE] = (d) => {
  return IfcPlate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLATESTANDARDCASE] = (d) => {
  return IfcPlateStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPLATETYPE] = (d) => {
  return IfcPlateType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOINT] = (d) => {
  return IfcPoint.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOINTONCURVE] = (d) => {
  return IfcPointOnCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOINTONSURFACE] = (d) => {
  return IfcPointOnSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOLYLOOP] = (d) => {
  return IfcPolyLoop.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOLYGONALBOUNDEDHALFSPACE] = (d) => {
  return IfcPolygonalBoundedHalfSpace.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOLYGONALFACESET] = (d) => {
  return IfcPolygonalFaceSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOLYLINE] = (d) => {
  return IfcPolyline.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPORT] = (d) => {
  return IfcPort.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOSITIONINGELEMENT] = (d) => {
  return IfcPositioningElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPOSTALADDRESS] = (d) => {
  return IfcPostalAddress.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPREDEFINEDCOLOUR] = (d) => {
  return IfcPreDefinedColour.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPREDEFINEDCURVEFONT] = (d) => {
  return IfcPreDefinedCurveFont.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPREDEFINEDITEM] = (d) => {
  return IfcPreDefinedItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPREDEFINEDPROPERTIES] = (d) => {
  return IfcPreDefinedProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPREDEFINEDPROPERTYSET] = (d) => {
  return IfcPreDefinedPropertySet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPREDEFINEDTEXTFONT] = (d) => {
  return IfcPreDefinedTextFont.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRESENTATIONITEM] = (d) => {
  return IfcPresentationItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRESENTATIONLAYERASSIGNMENT] = (d) => {
  return IfcPresentationLayerAssignment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRESENTATIONLAYERWITHSTYLE] = (d) => {
  return IfcPresentationLayerWithStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRESENTATIONSTYLE] = (d) => {
  return IfcPresentationStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRESENTATIONSTYLEASSIGNMENT] = (d) => {
  return IfcPresentationStyleAssignment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROCEDURE] = (d) => {
  return IfcProcedure.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROCEDURETYPE] = (d) => {
  return IfcProcedureType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROCESS] = (d) => {
  return IfcProcess.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRODUCT] = (d) => {
  return IfcProduct.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRODUCTDEFINITIONSHAPE] = (d) => {
  return IfcProductDefinitionShape.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPRODUCTREPRESENTATION] = (d) => {
  return IfcProductRepresentation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROFILEDEF] = (d) => {
  return IfcProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROFILEPROPERTIES] = (d) => {
  return IfcProfileProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROJECT] = (d) => {
  return IfcProject.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROJECTLIBRARY] = (d) => {
  return IfcProjectLibrary.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROJECTORDER] = (d) => {
  return IfcProjectOrder.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROJECTEDCRS] = (d) => {
  return IfcProjectedCRS.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROJECTIONELEMENT] = (d) => {
  return IfcProjectionElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTY] = (d) => {
  return IfcProperty.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYABSTRACTION] = (d) => {
  return IfcPropertyAbstraction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYBOUNDEDVALUE] = (d) => {
  return IfcPropertyBoundedValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYDEFINITION] = (d) => {
  return IfcPropertyDefinition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYDEPENDENCYRELATIONSHIP] = (d) => {
  return IfcPropertyDependencyRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYENUMERATEDVALUE] = (d) => {
  return IfcPropertyEnumeratedValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYENUMERATION] = (d) => {
  return IfcPropertyEnumeration.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYLISTVALUE] = (d) => {
  return IfcPropertyListValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYREFERENCEVALUE] = (d) => {
  return IfcPropertyReferenceValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYSET] = (d) => {
  return IfcPropertySet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYSETDEFINITION] = (d) => {
  return IfcPropertySetDefinition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYSETTEMPLATE] = (d) => {
  return IfcPropertySetTemplate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYSINGLEVALUE] = (d) => {
  return IfcPropertySingleValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYTABLEVALUE] = (d) => {
  return IfcPropertyTableValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYTEMPLATE] = (d) => {
  return IfcPropertyTemplate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROPERTYTEMPLATEDEFINITION] = (d) => {
  return IfcPropertyTemplateDefinition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROTECTIVEDEVICE] = (d) => {
  return IfcProtectiveDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROTECTIVEDEVICETRIPPINGUNIT] = (d) => {
  return IfcProtectiveDeviceTrippingUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROTECTIVEDEVICETRIPPINGUNITTYPE] = (d) => {
  return IfcProtectiveDeviceTrippingUnitType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROTECTIVEDEVICETYPE] = (d) => {
  return IfcProtectiveDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPROXY] = (d) => {
  return IfcProxy.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPUMP] = (d) => {
  return IfcPump.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCPUMPTYPE] = (d) => {
  return IfcPumpType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYAREA] = (d) => {
  return IfcQuantityArea.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYCOUNT] = (d) => {
  return IfcQuantityCount.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYLENGTH] = (d) => {
  return IfcQuantityLength.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYSET] = (d) => {
  return IfcQuantitySet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYTIME] = (d) => {
  return IfcQuantityTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYVOLUME] = (d) => {
  return IfcQuantityVolume.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCQUANTITYWEIGHT] = (d) => {
  return IfcQuantityWeight.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRAILING] = (d) => {
  return IfcRailing.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRAILINGTYPE] = (d) => {
  return IfcRailingType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRAMP] = (d) => {
  return IfcRamp.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRAMPFLIGHT] = (d) => {
  return IfcRampFlight.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRAMPFLIGHTTYPE] = (d) => {
  return IfcRampFlightType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRAMPTYPE] = (d) => {
  return IfcRampType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRATIONALBSPLINECURVEWITHKNOTS] = (d) => {
  return IfcRationalBSplineCurveWithKnots.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRATIONALBSPLINESURFACEWITHKNOTS] = (d) => {
  return IfcRationalBSplineSurfaceWithKnots.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRECTANGLEHOLLOWPROFILEDEF] = (d) => {
  return IfcRectangleHollowProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRECTANGLEPROFILEDEF] = (d) => {
  return IfcRectangleProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRECTANGULARPYRAMID] = (d) => {
  return IfcRectangularPyramid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRECTANGULARTRIMMEDSURFACE] = (d) => {
  return IfcRectangularTrimmedSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRECURRENCEPATTERN] = (d) => {
  return IfcRecurrencePattern.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREFERENCE] = (d) => {
  return IfcReference.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREFERENT] = (d) => {
  return IfcReferent.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREGULARTIMESERIES] = (d) => {
  return IfcRegularTimeSeries.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCEMENTBARPROPERTIES] = (d) => {
  return IfcReinforcementBarProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCEMENTDEFINITIONPROPERTIES] = (d) => {
  return IfcReinforcementDefinitionProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCINGBAR] = (d) => {
  return IfcReinforcingBar.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCINGBARTYPE] = (d) => {
  return IfcReinforcingBarType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCINGELEMENT] = (d) => {
  return IfcReinforcingElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCINGELEMENTTYPE] = (d) => {
  return IfcReinforcingElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCINGMESH] = (d) => {
  return IfcReinforcingMesh.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREINFORCINGMESHTYPE] = (d) => {
  return IfcReinforcingMeshType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELAGGREGATES] = (d) => {
  return IfcRelAggregates.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNS] = (d) => {
  return IfcRelAssigns.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTOACTOR] = (d) => {
  return IfcRelAssignsToActor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTOCONTROL] = (d) => {
  return IfcRelAssignsToControl.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTOGROUP] = (d) => {
  return IfcRelAssignsToGroup.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTOGROUPBYFACTOR] = (d) => {
  return IfcRelAssignsToGroupByFactor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTOPROCESS] = (d) => {
  return IfcRelAssignsToProcess.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTOPRODUCT] = (d) => {
  return IfcRelAssignsToProduct.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSIGNSTORESOURCE] = (d) => {
  return IfcRelAssignsToResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATES] = (d) => {
  return IfcRelAssociates.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATESAPPROVAL] = (d) => {
  return IfcRelAssociatesApproval.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATESCLASSIFICATION] = (d) => {
  return IfcRelAssociatesClassification.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATESCONSTRAINT] = (d) => {
  return IfcRelAssociatesConstraint.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATESDOCUMENT] = (d) => {
  return IfcRelAssociatesDocument.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATESLIBRARY] = (d) => {
  return IfcRelAssociatesLibrary.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELASSOCIATESMATERIAL] = (d) => {
  return IfcRelAssociatesMaterial.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTS] = (d) => {
  return IfcRelConnects.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSELEMENTS] = (d) => {
  return IfcRelConnectsElements.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSPATHELEMENTS] = (d) => {
  return IfcRelConnectsPathElements.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSPORTTOELEMENT] = (d) => {
  return IfcRelConnectsPortToElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSPORTS] = (d) => {
  return IfcRelConnectsPorts.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSSTRUCTURALACTIVITY] = (d) => {
  return IfcRelConnectsStructuralActivity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSSTRUCTURALMEMBER] = (d) => {
  return IfcRelConnectsStructuralMember.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSWITHECCENTRICITY] = (d) => {
  return IfcRelConnectsWithEccentricity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONNECTSWITHREALIZINGELEMENTS] = (d) => {
  return IfcRelConnectsWithRealizingElements.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCONTAINEDINSPATIALSTRUCTURE] = (d) => {
  return IfcRelContainedInSpatialStructure.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCOVERSBLDGELEMENTS] = (d) => {
  return IfcRelCoversBldgElements.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELCOVERSSPACES] = (d) => {
  return IfcRelCoversSpaces.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDECLARES] = (d) => {
  return IfcRelDeclares.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDECOMPOSES] = (d) => {
  return IfcRelDecomposes.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDEFINES] = (d) => {
  return IfcRelDefines.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDEFINESBYOBJECT] = (d) => {
  return IfcRelDefinesByObject.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDEFINESBYPROPERTIES] = (d) => {
  return IfcRelDefinesByProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDEFINESBYTEMPLATE] = (d) => {
  return IfcRelDefinesByTemplate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELDEFINESBYTYPE] = (d) => {
  return IfcRelDefinesByType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELFILLSELEMENT] = (d) => {
  return IfcRelFillsElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELFLOWCONTROLELEMENTS] = (d) => {
  return IfcRelFlowControlElements.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELINTERFERESELEMENTS] = (d) => {
  return IfcRelInterferesElements.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELNESTS] = (d) => {
  return IfcRelNests.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELPOSITIONS] = (d) => {
  return IfcRelPositions.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELPROJECTSELEMENT] = (d) => {
  return IfcRelProjectsElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELREFERENCEDINSPATIALSTRUCTURE] = (d) => {
  return IfcRelReferencedInSpatialStructure.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELSEQUENCE] = (d) => {
  return IfcRelSequence.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELSERVICESBUILDINGS] = (d) => {
  return IfcRelServicesBuildings.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELSPACEBOUNDARY] = (d) => {
  return IfcRelSpaceBoundary.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELSPACEBOUNDARY1STLEVEL] = (d) => {
  return IfcRelSpaceBoundary1stLevel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELSPACEBOUNDARY2NDLEVEL] = (d) => {
  return IfcRelSpaceBoundary2ndLevel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELVOIDSELEMENT] = (d) => {
  return IfcRelVoidsElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRELATIONSHIP] = (d) => {
  return IfcRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREPARAMETRISEDCOMPOSITECURVESEGMENT] = (d) => {
  return IfcReparametrisedCompositeCurveSegment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREPRESENTATION] = (d) => {
  return IfcRepresentation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREPRESENTATIONCONTEXT] = (d) => {
  return IfcRepresentationContext.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREPRESENTATIONITEM] = (d) => {
  return IfcRepresentationItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREPRESENTATIONMAP] = (d) => {
  return IfcRepresentationMap.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRESOURCE] = (d) => {
  return IfcResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRESOURCEAPPROVALRELATIONSHIP] = (d) => {
  return IfcResourceApprovalRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRESOURCECONSTRAINTRELATIONSHIP] = (d) => {
  return IfcResourceConstraintRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRESOURCELEVELRELATIONSHIP] = (d) => {
  return IfcResourceLevelRelationship.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRESOURCETIME] = (d) => {
  return IfcResourceTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREVOLVEDAREASOLID] = (d) => {
  return IfcRevolvedAreaSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCREVOLVEDAREASOLIDTAPERED] = (d) => {
  return IfcRevolvedAreaSolidTapered.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRIGHTCIRCULARCONE] = (d) => {
  return IfcRightCircularCone.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCRIGHTCIRCULARCYLINDER] = (d) => {
  return IfcRightCircularCylinder.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCROOF] = (d) => {
  return IfcRoof.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCROOFTYPE] = (d) => {
  return IfcRoofType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCROOT] = (d) => {
  return IfcRoot.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCROUNDEDRECTANGLEPROFILEDEF] = (d) => {
  return IfcRoundedRectangleProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSIUNIT] = (d) => {
  return IfcSIUnit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSANITARYTERMINAL] = (d) => {
  return IfcSanitaryTerminal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSANITARYTERMINALTYPE] = (d) => {
  return IfcSanitaryTerminalType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSCHEDULINGTIME] = (d) => {
  return IfcSchedulingTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSEAMCURVE] = (d) => {
  return IfcSeamCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSECTIONPROPERTIES] = (d) => {
  return IfcSectionProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSECTIONREINFORCEMENTPROPERTIES] = (d) => {
  return IfcSectionReinforcementProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSECTIONEDSOLID] = (d) => {
  return IfcSectionedSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSECTIONEDSOLIDHORIZONTAL] = (d) => {
  return IfcSectionedSolidHorizontal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSECTIONEDSPINE] = (d) => {
  return IfcSectionedSpine.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSENSOR] = (d) => {
  return IfcSensor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSENSORTYPE] = (d) => {
  return IfcSensorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSHADINGDEVICE] = (d) => {
  return IfcShadingDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSHADINGDEVICETYPE] = (d) => {
  return IfcShadingDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSHAPEASPECT] = (d) => {
  return IfcShapeAspect.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSHAPEMODEL] = (d) => {
  return IfcShapeModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSHAPEREPRESENTATION] = (d) => {
  return IfcShapeRepresentation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSHELLBASEDSURFACEMODEL] = (d) => {
  return IfcShellBasedSurfaceModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSIMPLEPROPERTY] = (d) => {
  return IfcSimpleProperty.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSIMPLEPROPERTYTEMPLATE] = (d) => {
  return IfcSimplePropertyTemplate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSITE] = (d) => {
  return IfcSite.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSLAB] = (d) => {
  return IfcSlab.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSLABELEMENTEDCASE] = (d) => {
  return IfcSlabElementedCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSLABSTANDARDCASE] = (d) => {
  return IfcSlabStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSLABTYPE] = (d) => {
  return IfcSlabType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSLIPPAGECONNECTIONCONDITION] = (d) => {
  return IfcSlippageConnectionCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSOLARDEVICE] = (d) => {
  return IfcSolarDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSOLARDEVICETYPE] = (d) => {
  return IfcSolarDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSOLIDMODEL] = (d) => {
  return IfcSolidModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPACE] = (d) => {
  return IfcSpace.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPACEHEATER] = (d) => {
  return IfcSpaceHeater.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPACEHEATERTYPE] = (d) => {
  return IfcSpaceHeaterType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPACETYPE] = (d) => {
  return IfcSpaceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPATIALELEMENT] = (d) => {
  return IfcSpatialElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPATIALELEMENTTYPE] = (d) => {
  return IfcSpatialElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPATIALSTRUCTUREELEMENT] = (d) => {
  return IfcSpatialStructureElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPATIALSTRUCTUREELEMENTTYPE] = (d) => {
  return IfcSpatialStructureElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPATIALZONE] = (d) => {
  return IfcSpatialZone.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPATIALZONETYPE] = (d) => {
  return IfcSpatialZoneType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPHERE] = (d) => {
  return IfcSphere.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSPHERICALSURFACE] = (d) => {
  return IfcSphericalSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTACKTERMINAL] = (d) => {
  return IfcStackTerminal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTACKTERMINALTYPE] = (d) => {
  return IfcStackTerminalType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTAIR] = (d) => {
  return IfcStair.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTAIRFLIGHT] = (d) => {
  return IfcStairFlight.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTAIRFLIGHTTYPE] = (d) => {
  return IfcStairFlightType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTAIRTYPE] = (d) => {
  return IfcStairType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALACTION] = (d) => {
  return IfcStructuralAction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALACTIVITY] = (d) => {
  return IfcStructuralActivity.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALANALYSISMODEL] = (d) => {
  return IfcStructuralAnalysisModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCONNECTION] = (d) => {
  return IfcStructuralConnection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCONNECTIONCONDITION] = (d) => {
  return IfcStructuralConnectionCondition.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCURVEACTION] = (d) => {
  return IfcStructuralCurveAction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCURVECONNECTION] = (d) => {
  return IfcStructuralCurveConnection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCURVEMEMBER] = (d) => {
  return IfcStructuralCurveMember.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCURVEMEMBERVARYING] = (d) => {
  return IfcStructuralCurveMemberVarying.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALCURVEREACTION] = (d) => {
  return IfcStructuralCurveReaction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALITEM] = (d) => {
  return IfcStructuralItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLINEARACTION] = (d) => {
  return IfcStructuralLinearAction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOAD] = (d) => {
  return IfcStructuralLoad.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADCASE] = (d) => {
  return IfcStructuralLoadCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADCONFIGURATION] = (d) => {
  return IfcStructuralLoadConfiguration.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADGROUP] = (d) => {
  return IfcStructuralLoadGroup.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADLINEARFORCE] = (d) => {
  return IfcStructuralLoadLinearForce.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADORRESULT] = (d) => {
  return IfcStructuralLoadOrResult.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADPLANARFORCE] = (d) => {
  return IfcStructuralLoadPlanarForce.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADSINGLEDISPLACEMENT] = (d) => {
  return IfcStructuralLoadSingleDisplacement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADSINGLEDISPLACEMENTDISTORTION] = (d) => {
  return IfcStructuralLoadSingleDisplacementDistortion.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADSINGLEFORCE] = (d) => {
  return IfcStructuralLoadSingleForce.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADSINGLEFORCEWARPING] = (d) => {
  return IfcStructuralLoadSingleForceWarping.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADSTATIC] = (d) => {
  return IfcStructuralLoadStatic.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALLOADTEMPERATURE] = (d) => {
  return IfcStructuralLoadTemperature.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALMEMBER] = (d) => {
  return IfcStructuralMember.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALPLANARACTION] = (d) => {
  return IfcStructuralPlanarAction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALPOINTACTION] = (d) => {
  return IfcStructuralPointAction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALPOINTCONNECTION] = (d) => {
  return IfcStructuralPointConnection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALPOINTREACTION] = (d) => {
  return IfcStructuralPointReaction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALREACTION] = (d) => {
  return IfcStructuralReaction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALRESULTGROUP] = (d) => {
  return IfcStructuralResultGroup.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALSURFACEACTION] = (d) => {
  return IfcStructuralSurfaceAction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALSURFACECONNECTION] = (d) => {
  return IfcStructuralSurfaceConnection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALSURFACEMEMBER] = (d) => {
  return IfcStructuralSurfaceMember.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALSURFACEMEMBERVARYING] = (d) => {
  return IfcStructuralSurfaceMemberVarying.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTRUCTURALSURFACEREACTION] = (d) => {
  return IfcStructuralSurfaceReaction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTYLEMODEL] = (d) => {
  return IfcStyleModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTYLEDITEM] = (d) => {
  return IfcStyledItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSTYLEDREPRESENTATION] = (d) => {
  return IfcStyledRepresentation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSUBCONTRACTRESOURCE] = (d) => {
  return IfcSubContractResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSUBCONTRACTRESOURCETYPE] = (d) => {
  return IfcSubContractResourceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSUBEDGE] = (d) => {
  return IfcSubedge.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACE] = (d) => {
  return IfcSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACECURVE] = (d) => {
  return IfcSurfaceCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACECURVESWEPTAREASOLID] = (d) => {
  return IfcSurfaceCurveSweptAreaSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACEFEATURE] = (d) => {
  return IfcSurfaceFeature.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACEOFLINEAREXTRUSION] = (d) => {
  return IfcSurfaceOfLinearExtrusion.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACEOFREVOLUTION] = (d) => {
  return IfcSurfaceOfRevolution.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACEREINFORCEMENTAREA] = (d) => {
  return IfcSurfaceReinforcementArea.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACESTYLE] = (d) => {
  return IfcSurfaceStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACESTYLELIGHTING] = (d) => {
  return IfcSurfaceStyleLighting.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACESTYLEREFRACTION] = (d) => {
  return IfcSurfaceStyleRefraction.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACESTYLERENDERING] = (d) => {
  return IfcSurfaceStyleRendering.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACESTYLESHADING] = (d) => {
  return IfcSurfaceStyleShading.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACESTYLEWITHTEXTURES] = (d) => {
  return IfcSurfaceStyleWithTextures.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSURFACETEXTURE] = (d) => {
  return IfcSurfaceTexture.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSWEPTAREASOLID] = (d) => {
  return IfcSweptAreaSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSWEPTDISKSOLID] = (d) => {
  return IfcSweptDiskSolid.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSWEPTDISKSOLIDPOLYGONAL] = (d) => {
  return IfcSweptDiskSolidPolygonal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSWEPTSURFACE] = (d) => {
  return IfcSweptSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSWITCHINGDEVICE] = (d) => {
  return IfcSwitchingDevice.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSWITCHINGDEVICETYPE] = (d) => {
  return IfcSwitchingDeviceType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSYSTEM] = (d) => {
  return IfcSystem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSYSTEMFURNITUREELEMENT] = (d) => {
  return IfcSystemFurnitureElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCSYSTEMFURNITUREELEMENTTYPE] = (d) => {
  return IfcSystemFurnitureElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTSHAPEPROFILEDEF] = (d) => {
  return IfcTShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTABLE] = (d) => {
  return IfcTable.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTABLECOLUMN] = (d) => {
  return IfcTableColumn.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTABLEROW] = (d) => {
  return IfcTableRow.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTANK] = (d) => {
  return IfcTank.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTANKTYPE] = (d) => {
  return IfcTankType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTASK] = (d) => {
  return IfcTask.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTASKTIME] = (d) => {
  return IfcTaskTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTASKTIMERECURRING] = (d) => {
  return IfcTaskTimeRecurring.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTASKTYPE] = (d) => {
  return IfcTaskType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTELECOMADDRESS] = (d) => {
  return IfcTelecomAddress.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTENDON] = (d) => {
  return IfcTendon.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTENDONANCHOR] = (d) => {
  return IfcTendonAnchor.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTENDONANCHORTYPE] = (d) => {
  return IfcTendonAnchorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTENDONCONDUIT] = (d) => {
  return IfcTendonConduit.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTENDONCONDUITTYPE] = (d) => {
  return IfcTendonConduitType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTENDONTYPE] = (d) => {
  return IfcTendonType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTESSELLATEDFACESET] = (d) => {
  return IfcTessellatedFaceSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTESSELLATEDITEM] = (d) => {
  return IfcTessellatedItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTLITERAL] = (d) => {
  return IfcTextLiteral.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTLITERALWITHEXTENT] = (d) => {
  return IfcTextLiteralWithExtent.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTSTYLE] = (d) => {
  return IfcTextStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTSTYLEFONTMODEL] = (d) => {
  return IfcTextStyleFontModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTSTYLEFORDEFINEDFONT] = (d) => {
  return IfcTextStyleForDefinedFont.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTSTYLETEXTMODEL] = (d) => {
  return IfcTextStyleTextModel.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTURECOORDINATE] = (d) => {
  return IfcTextureCoordinate.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTURECOORDINATEGENERATOR] = (d) => {
  return IfcTextureCoordinateGenerator.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTUREMAP] = (d) => {
  return IfcTextureMap.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTUREVERTEX] = (d) => {
  return IfcTextureVertex.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTEXTUREVERTEXLIST] = (d) => {
  return IfcTextureVertexList.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTIMEPERIOD] = (d) => {
  return IfcTimePeriod.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTIMESERIES] = (d) => {
  return IfcTimeSeries.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTIMESERIESVALUE] = (d) => {
  return IfcTimeSeriesValue.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTOPOLOGICALREPRESENTATIONITEM] = (d) => {
  return IfcTopologicalRepresentationItem.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTOPOLOGYREPRESENTATION] = (d) => {
  return IfcTopologyRepresentation.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTOROIDALSURFACE] = (d) => {
  return IfcToroidalSurface.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRANSFORMER] = (d) => {
  return IfcTransformer.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRANSFORMERTYPE] = (d) => {
  return IfcTransformerType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRANSITIONCURVESEGMENT2D] = (d) => {
  return IfcTransitionCurveSegment2D.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRANSPORTELEMENT] = (d) => {
  return IfcTransportElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRANSPORTELEMENTTYPE] = (d) => {
  return IfcTransportElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRAPEZIUMPROFILEDEF] = (d) => {
  return IfcTrapeziumProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRIANGULATEDFACESET] = (d) => {
  return IfcTriangulatedFaceSet.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRIANGULATEDIRREGULARNETWORK] = (d) => {
  return IfcTriangulatedIrregularNetwork.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTRIMMEDCURVE] = (d) => {
  return IfcTrimmedCurve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTUBEBUNDLE] = (d) => {
  return IfcTubeBundle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTUBEBUNDLETYPE] = (d) => {
  return IfcTubeBundleType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTYPEOBJECT] = (d) => {
  return IfcTypeObject.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTYPEPROCESS] = (d) => {
  return IfcTypeProcess.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTYPEPRODUCT] = (d) => {
  return IfcTypeProduct.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCTYPERESOURCE] = (d) => {
  return IfcTypeResource.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCUSHAPEPROFILEDEF] = (d) => {
  return IfcUShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCUNITASSIGNMENT] = (d) => {
  return IfcUnitAssignment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCUNITARYCONTROLELEMENT] = (d) => {
  return IfcUnitaryControlElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCUNITARYCONTROLELEMENTTYPE] = (d) => {
  return IfcUnitaryControlElementType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCUNITARYEQUIPMENT] = (d) => {
  return IfcUnitaryEquipment.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCUNITARYEQUIPMENTTYPE] = (d) => {
  return IfcUnitaryEquipmentType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVALVE] = (d) => {
  return IfcValve.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVALVETYPE] = (d) => {
  return IfcValveType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVECTOR] = (d) => {
  return IfcVector.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVERTEX] = (d) => {
  return IfcVertex.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVERTEXLOOP] = (d) => {
  return IfcVertexLoop.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVERTEXPOINT] = (d) => {
  return IfcVertexPoint.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVIBRATIONDAMPER] = (d) => {
  return IfcVibrationDamper.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVIBRATIONDAMPERTYPE] = (d) => {
  return IfcVibrationDamperType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVIBRATIONISOLATOR] = (d) => {
  return IfcVibrationIsolator.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVIBRATIONISOLATORTYPE] = (d) => {
  return IfcVibrationIsolatorType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVIRTUALELEMENT] = (d) => {
  return IfcVirtualElement.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVIRTUALGRIDINTERSECTION] = (d) => {
  return IfcVirtualGridIntersection.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCVOIDINGFEATURE] = (d) => {
  return IfcVoidingFeature.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWALL] = (d) => {
  return IfcWall.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWALLELEMENTEDCASE] = (d) => {
  return IfcWallElementedCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWALLSTANDARDCASE] = (d) => {
  return IfcWallStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWALLTYPE] = (d) => {
  return IfcWallType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWASTETERMINAL] = (d) => {
  return IfcWasteTerminal.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWASTETERMINALTYPE] = (d) => {
  return IfcWasteTerminalType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWINDOW] = (d) => {
  return IfcWindow.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWINDOWLININGPROPERTIES] = (d) => {
  return IfcWindowLiningProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWINDOWPANELPROPERTIES] = (d) => {
  return IfcWindowPanelProperties.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWINDOWSTANDARDCASE] = (d) => {
  return IfcWindowStandardCase.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWINDOWSTYLE] = (d) => {
  return IfcWindowStyle.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWINDOWTYPE] = (d) => {
  return IfcWindowType.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWORKCALENDAR] = (d) => {
  return IfcWorkCalendar.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWORKCONTROL] = (d) => {
  return IfcWorkControl.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWORKPLAN] = (d) => {
  return IfcWorkPlan.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWORKSCHEDULE] = (d) => {
  return IfcWorkSchedule.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCWORKTIME] = (d) => {
  return IfcWorkTime.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCZSHAPEPROFILEDEF] = (d) => {
  return IfcZShapeProfileDef.FromTape(d.ID, d.type, d.arguments);
};
FromRawLineData[IFCZONE] = (d) => {
  return IfcZone.FromTape(d.ID, d.type, d.arguments);
};
var Handle = class {
  constructor(id) {
    this.value = id;
  }
  toTape(args) {
    args.push({ type: 5, value: this.value });
  }
};
function Value(type, value) {
  return { t: type, v: value };
}
var IfcAbsorbedDoseMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcAccelerationMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcAmountOfSubstanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcAngularVelocityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcAreaDensityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcAreaMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcBinary = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcBoolean = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcBoxAlignment = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcCardinalPointReference = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcContextDependentMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcCountMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcCurvatureMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDate = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDateTime = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDayInMonthNumber = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDayInWeekNumber = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDescriptiveMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDimensionCount = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDoseEquivalentMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDuration = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcDynamicViscosityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcElectricCapacitanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcElectricChargeMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcElectricConductanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcElectricCurrentMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcElectricResistanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcElectricVoltageMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcEnergyMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcFontStyle = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcFontVariant = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcFontWeight = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcForceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcFrequencyMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcGloballyUniqueId = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcHeatFluxDensityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcHeatingValueMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcIdentifier = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcIlluminanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcInductanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcInteger = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcIntegerCountRateMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcIonConcentrationMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcIsothermalMoistureCapacityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcKinematicViscosityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLabel = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLanguageId = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLengthMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLinearForceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLinearMomentMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLinearStiffnessMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLinearVelocityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLogical = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLuminousFluxMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLuminousIntensityDistributionMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcLuminousIntensityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMagneticFluxDensityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMagneticFluxMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMassDensityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMassFlowRateMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMassMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMassPerLengthMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcModulusOfElasticityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcModulusOfLinearSubgradeReactionMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcModulusOfRotationalSubgradeReactionMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcModulusOfSubgradeReactionMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMoistureDiffusivityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMolecularWeightMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMomentOfInertiaMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMonetaryMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcMonthInYearNumber = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcNonNegativeLengthMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcNormalisedRatioMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcNumericMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPHMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcParameterValue = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPlanarForceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPlaneAngleMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPositiveInteger = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPositiveLengthMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPositivePlaneAngleMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPositiveRatioMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPowerMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPresentableText = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcPressureMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcRadioActivityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcRatioMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcReal = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcRotationalFrequencyMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcRotationalMassMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcRotationalStiffnessMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSectionModulusMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSectionalAreaIntegralMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcShearModulusMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSolidAngleMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSoundPowerLevelMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSoundPowerMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSoundPressureLevelMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSoundPressureMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSpecificHeatCapacityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSpecularExponent = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcSpecularRoughness = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTemperatureGradientMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTemperatureRateOfChangeMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcText = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTextAlignment = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTextDecoration = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTextFontName = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTextTransformation = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcThermalAdmittanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcThermalConductivityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcThermalExpansionCoefficientMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcThermalResistanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcThermalTransmittanceMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcThermodynamicTemperatureMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTime = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTimeMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTimeStamp = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcTorqueMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcURIReference = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcVaporPermeabilityMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcVolumeMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcVolumetricFlowRateMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcWarpingConstantMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcWarpingMomentMeasure = class {
  constructor(v) {
    this.value = v;
  }
};
var IfcActionRequestTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcActionRequestTypeEnum.EMAIL = "EMAIL";
IfcActionRequestTypeEnum.FAX = "FAX";
IfcActionRequestTypeEnum.PHONE = "PHONE";
IfcActionRequestTypeEnum.POST = "POST";
IfcActionRequestTypeEnum.VERBAL = "VERBAL";
IfcActionRequestTypeEnum.USERDEFINED = "USERDEFINED";
IfcActionRequestTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcActionSourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcActionSourceTypeEnum.DEAD_LOAD_G = "DEAD_LOAD_G";
IfcActionSourceTypeEnum.COMPLETION_G1 = "COMPLETION_G1";
IfcActionSourceTypeEnum.LIVE_LOAD_Q = "LIVE_LOAD_Q";
IfcActionSourceTypeEnum.SNOW_S = "SNOW_S";
IfcActionSourceTypeEnum.WIND_W = "WIND_W";
IfcActionSourceTypeEnum.PRESTRESSING_P = "PRESTRESSING_P";
IfcActionSourceTypeEnum.SETTLEMENT_U = "SETTLEMENT_U";
IfcActionSourceTypeEnum.TEMPERATURE_T = "TEMPERATURE_T";
IfcActionSourceTypeEnum.EARTHQUAKE_E = "EARTHQUAKE_E";
IfcActionSourceTypeEnum.FIRE = "FIRE";
IfcActionSourceTypeEnum.IMPULSE = "IMPULSE";
IfcActionSourceTypeEnum.IMPACT = "IMPACT";
IfcActionSourceTypeEnum.TRANSPORT = "TRANSPORT";
IfcActionSourceTypeEnum.ERECTION = "ERECTION";
IfcActionSourceTypeEnum.PROPPING = "PROPPING";
IfcActionSourceTypeEnum.SYSTEM_IMPERFECTION = "SYSTEM_IMPERFECTION";
IfcActionSourceTypeEnum.SHRINKAGE = "SHRINKAGE";
IfcActionSourceTypeEnum.CREEP = "CREEP";
IfcActionSourceTypeEnum.LACK_OF_FIT = "LACK_OF_FIT";
IfcActionSourceTypeEnum.BUOYANCY = "BUOYANCY";
IfcActionSourceTypeEnum.ICE = "ICE";
IfcActionSourceTypeEnum.CURRENT = "CURRENT";
IfcActionSourceTypeEnum.WAVE = "WAVE";
IfcActionSourceTypeEnum.RAIN = "RAIN";
IfcActionSourceTypeEnum.BRAKES = "BRAKES";
IfcActionSourceTypeEnum.USERDEFINED = "USERDEFINED";
IfcActionSourceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcActionTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcActionTypeEnum.PERMANENT_G = "PERMANENT_G";
IfcActionTypeEnum.VARIABLE_Q = "VARIABLE_Q";
IfcActionTypeEnum.EXTRAORDINARY_A = "EXTRAORDINARY_A";
IfcActionTypeEnum.USERDEFINED = "USERDEFINED";
IfcActionTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcActuatorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcActuatorTypeEnum.ELECTRICACTUATOR = "ELECTRICACTUATOR";
IfcActuatorTypeEnum.HANDOPERATEDACTUATOR = "HANDOPERATEDACTUATOR";
IfcActuatorTypeEnum.HYDRAULICACTUATOR = "HYDRAULICACTUATOR";
IfcActuatorTypeEnum.PNEUMATICACTUATOR = "PNEUMATICACTUATOR";
IfcActuatorTypeEnum.THERMOSTATICACTUATOR = "THERMOSTATICACTUATOR";
IfcActuatorTypeEnum.USERDEFINED = "USERDEFINED";
IfcActuatorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAddressTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAddressTypeEnum.OFFICE = "OFFICE";
IfcAddressTypeEnum.SITE = "SITE";
IfcAddressTypeEnum.HOME = "HOME";
IfcAddressTypeEnum.DISTRIBUTIONPOINT = "DISTRIBUTIONPOINT";
IfcAddressTypeEnum.USERDEFINED = "USERDEFINED";
var IfcAirTerminalBoxTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAirTerminalBoxTypeEnum.CONSTANTFLOW = "CONSTANTFLOW";
IfcAirTerminalBoxTypeEnum.VARIABLEFLOWPRESSUREDEPENDANT = "VARIABLEFLOWPRESSUREDEPENDANT";
IfcAirTerminalBoxTypeEnum.VARIABLEFLOWPRESSUREINDEPENDANT = "VARIABLEFLOWPRESSUREINDEPENDANT";
IfcAirTerminalBoxTypeEnum.USERDEFINED = "USERDEFINED";
IfcAirTerminalBoxTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAirTerminalTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAirTerminalTypeEnum.DIFFUSER = "DIFFUSER";
IfcAirTerminalTypeEnum.GRILLE = "GRILLE";
IfcAirTerminalTypeEnum.LOUVRE = "LOUVRE";
IfcAirTerminalTypeEnum.REGISTER = "REGISTER";
IfcAirTerminalTypeEnum.USERDEFINED = "USERDEFINED";
IfcAirTerminalTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAirToAirHeatRecoveryTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAirToAirHeatRecoveryTypeEnum.FIXEDPLATECOUNTERFLOWEXCHANGER = "FIXEDPLATECOUNTERFLOWEXCHANGER";
IfcAirToAirHeatRecoveryTypeEnum.FIXEDPLATECROSSFLOWEXCHANGER = "FIXEDPLATECROSSFLOWEXCHANGER";
IfcAirToAirHeatRecoveryTypeEnum.FIXEDPLATEPARALLELFLOWEXCHANGER = "FIXEDPLATEPARALLELFLOWEXCHANGER";
IfcAirToAirHeatRecoveryTypeEnum.ROTARYWHEEL = "ROTARYWHEEL";
IfcAirToAirHeatRecoveryTypeEnum.RUNAROUNDCOILLOOP = "RUNAROUNDCOILLOOP";
IfcAirToAirHeatRecoveryTypeEnum.HEATPIPE = "HEATPIPE";
IfcAirToAirHeatRecoveryTypeEnum.TWINTOWERENTHALPYRECOVERYLOOPS = "TWINTOWERENTHALPYRECOVERYLOOPS";
IfcAirToAirHeatRecoveryTypeEnum.THERMOSIPHONSEALEDTUBEHEATEXCHANGERS = "THERMOSIPHONSEALEDTUBEHEATEXCHANGERS";
IfcAirToAirHeatRecoveryTypeEnum.THERMOSIPHONCOILTYPEHEATEXCHANGERS = "THERMOSIPHONCOILTYPEHEATEXCHANGERS";
IfcAirToAirHeatRecoveryTypeEnum.USERDEFINED = "USERDEFINED";
IfcAirToAirHeatRecoveryTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAlarmTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAlarmTypeEnum.BELL = "BELL";
IfcAlarmTypeEnum.BREAKGLASSBUTTON = "BREAKGLASSBUTTON";
IfcAlarmTypeEnum.LIGHT = "LIGHT";
IfcAlarmTypeEnum.MANUALPULLBOX = "MANUALPULLBOX";
IfcAlarmTypeEnum.SIREN = "SIREN";
IfcAlarmTypeEnum.WHISTLE = "WHISTLE";
IfcAlarmTypeEnum.USERDEFINED = "USERDEFINED";
IfcAlarmTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAlignmentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAlignmentTypeEnum.USERDEFINED = "USERDEFINED";
IfcAlignmentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAnalysisModelTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAnalysisModelTypeEnum.IN_PLANE_LOADING_2D = "IN_PLANE_LOADING_2D";
IfcAnalysisModelTypeEnum.OUT_PLANE_LOADING_2D = "OUT_PLANE_LOADING_2D";
IfcAnalysisModelTypeEnum.LOADING_3D = "LOADING_3D";
IfcAnalysisModelTypeEnum.USERDEFINED = "USERDEFINED";
IfcAnalysisModelTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcAnalysisTheoryTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAnalysisTheoryTypeEnum.FIRST_ORDER_THEORY = "FIRST_ORDER_THEORY";
IfcAnalysisTheoryTypeEnum.SECOND_ORDER_THEORY = "SECOND_ORDER_THEORY";
IfcAnalysisTheoryTypeEnum.THIRD_ORDER_THEORY = "THIRD_ORDER_THEORY";
IfcAnalysisTheoryTypeEnum.FULL_NONLINEAR_THEORY = "FULL_NONLINEAR_THEORY";
IfcAnalysisTheoryTypeEnum.USERDEFINED = "USERDEFINED";
IfcAnalysisTheoryTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcArithmeticOperatorEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcArithmeticOperatorEnum.ADD = "ADD";
IfcArithmeticOperatorEnum.DIVIDE = "DIVIDE";
IfcArithmeticOperatorEnum.MULTIPLY = "MULTIPLY";
IfcArithmeticOperatorEnum.SUBTRACT = "SUBTRACT";
var IfcAssemblyPlaceEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAssemblyPlaceEnum.SITE = "SITE";
IfcAssemblyPlaceEnum.FACTORY = "FACTORY";
IfcAssemblyPlaceEnum.NOTDEFINED = "NOTDEFINED";
var IfcAudioVisualApplianceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcAudioVisualApplianceTypeEnum.AMPLIFIER = "AMPLIFIER";
IfcAudioVisualApplianceTypeEnum.CAMERA = "CAMERA";
IfcAudioVisualApplianceTypeEnum.DISPLAY = "DISPLAY";
IfcAudioVisualApplianceTypeEnum.MICROPHONE = "MICROPHONE";
IfcAudioVisualApplianceTypeEnum.PLAYER = "PLAYER";
IfcAudioVisualApplianceTypeEnum.PROJECTOR = "PROJECTOR";
IfcAudioVisualApplianceTypeEnum.RECEIVER = "RECEIVER";
IfcAudioVisualApplianceTypeEnum.SPEAKER = "SPEAKER";
IfcAudioVisualApplianceTypeEnum.SWITCHER = "SWITCHER";
IfcAudioVisualApplianceTypeEnum.TELEPHONE = "TELEPHONE";
IfcAudioVisualApplianceTypeEnum.TUNER = "TUNER";
IfcAudioVisualApplianceTypeEnum.USERDEFINED = "USERDEFINED";
IfcAudioVisualApplianceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBSplineCurveForm = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBSplineCurveForm.POLYLINE_FORM = "POLYLINE_FORM";
IfcBSplineCurveForm.CIRCULAR_ARC = "CIRCULAR_ARC";
IfcBSplineCurveForm.ELLIPTIC_ARC = "ELLIPTIC_ARC";
IfcBSplineCurveForm.PARABOLIC_ARC = "PARABOLIC_ARC";
IfcBSplineCurveForm.HYPERBOLIC_ARC = "HYPERBOLIC_ARC";
IfcBSplineCurveForm.UNSPECIFIED = "UNSPECIFIED";
var IfcBSplineSurfaceForm = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBSplineSurfaceForm.PLANE_SURF = "PLANE_SURF";
IfcBSplineSurfaceForm.CYLINDRICAL_SURF = "CYLINDRICAL_SURF";
IfcBSplineSurfaceForm.CONICAL_SURF = "CONICAL_SURF";
IfcBSplineSurfaceForm.SPHERICAL_SURF = "SPHERICAL_SURF";
IfcBSplineSurfaceForm.TOROIDAL_SURF = "TOROIDAL_SURF";
IfcBSplineSurfaceForm.SURF_OF_REVOLUTION = "SURF_OF_REVOLUTION";
IfcBSplineSurfaceForm.RULED_SURF = "RULED_SURF";
IfcBSplineSurfaceForm.GENERALISED_CONE = "GENERALISED_CONE";
IfcBSplineSurfaceForm.QUADRIC_SURF = "QUADRIC_SURF";
IfcBSplineSurfaceForm.SURF_OF_LINEAR_EXTRUSION = "SURF_OF_LINEAR_EXTRUSION";
IfcBSplineSurfaceForm.UNSPECIFIED = "UNSPECIFIED";
var IfcBeamTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBeamTypeEnum.BEAM = "BEAM";
IfcBeamTypeEnum.JOIST = "JOIST";
IfcBeamTypeEnum.HOLLOWCORE = "HOLLOWCORE";
IfcBeamTypeEnum.LINTEL = "LINTEL";
IfcBeamTypeEnum.SPANDREL = "SPANDREL";
IfcBeamTypeEnum.T_BEAM = "T_BEAM";
IfcBeamTypeEnum.GIRDER_SEGMENT = "GIRDER_SEGMENT";
IfcBeamTypeEnum.DIAPHRAGM = "DIAPHRAGM";
IfcBeamTypeEnum.PIERCAP = "PIERCAP";
IfcBeamTypeEnum.HATSTONE = "HATSTONE";
IfcBeamTypeEnum.CORNICE = "CORNICE";
IfcBeamTypeEnum.EDGEBEAM = "EDGEBEAM";
IfcBeamTypeEnum.USERDEFINED = "USERDEFINED";
IfcBeamTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBearingTypeDisplacementEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBearingTypeDisplacementEnum.FIXED_MOVEMENT = "FIXED_MOVEMENT";
IfcBearingTypeDisplacementEnum.GUIDED_LONGITUDINAL = "GUIDED_LONGITUDINAL";
IfcBearingTypeDisplacementEnum.GUIDED_TRANSVERSAL = "GUIDED_TRANSVERSAL";
IfcBearingTypeDisplacementEnum.FREE_MOVEMENT = "FREE_MOVEMENT";
IfcBearingTypeDisplacementEnum.NOTDEFINED = "NOTDEFINED";
var IfcBearingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBearingTypeEnum.CYLINDRICAL = "CYLINDRICAL";
IfcBearingTypeEnum.SPHERICAL = "SPHERICAL";
IfcBearingTypeEnum.ELASTOMERIC = "ELASTOMERIC";
IfcBearingTypeEnum.POT = "POT";
IfcBearingTypeEnum.GUIDE = "GUIDE";
IfcBearingTypeEnum.ROCKER = "ROCKER";
IfcBearingTypeEnum.ROLLER = "ROLLER";
IfcBearingTypeEnum.DISK = "DISK";
IfcBearingTypeEnum.USERDEFINED = "USERDEFINED";
IfcBearingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBenchmarkEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBenchmarkEnum.GREATERTHAN = "GREATERTHAN";
IfcBenchmarkEnum.GREATERTHANOREQUALTO = "GREATERTHANOREQUALTO";
IfcBenchmarkEnum.LESSTHAN = "LESSTHAN";
IfcBenchmarkEnum.LESSTHANOREQUALTO = "LESSTHANOREQUALTO";
IfcBenchmarkEnum.EQUALTO = "EQUALTO";
IfcBenchmarkEnum.NOTEQUALTO = "NOTEQUALTO";
IfcBenchmarkEnum.INCLUDES = "INCLUDES";
IfcBenchmarkEnum.NOTINCLUDES = "NOTINCLUDES";
IfcBenchmarkEnum.INCLUDEDIN = "INCLUDEDIN";
IfcBenchmarkEnum.NOTINCLUDEDIN = "NOTINCLUDEDIN";
var IfcBoilerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBoilerTypeEnum.WATER = "WATER";
IfcBoilerTypeEnum.STEAM = "STEAM";
IfcBoilerTypeEnum.USERDEFINED = "USERDEFINED";
IfcBoilerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBooleanOperator = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBooleanOperator.UNION = "UNION";
IfcBooleanOperator.INTERSECTION = "INTERSECTION";
IfcBooleanOperator.DIFFERENCE = "DIFFERENCE";
var IfcBridgePartTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBridgePartTypeEnum.ABUTMENT = "ABUTMENT";
IfcBridgePartTypeEnum.DECK = "DECK";
IfcBridgePartTypeEnum.DECK_SEGMENT = "DECK_SEGMENT";
IfcBridgePartTypeEnum.FOUNDATION = "FOUNDATION";
IfcBridgePartTypeEnum.PIER = "PIER";
IfcBridgePartTypeEnum.PIER_SEGMENT = "PIER_SEGMENT";
IfcBridgePartTypeEnum.PYLON = "PYLON";
IfcBridgePartTypeEnum.SUBSTRUCTURE = "SUBSTRUCTURE";
IfcBridgePartTypeEnum.SUPERSTRUCTURE = "SUPERSTRUCTURE";
IfcBridgePartTypeEnum.SURFACESTRUCTURE = "SURFACESTRUCTURE";
IfcBridgePartTypeEnum.USERDEFINED = "USERDEFINED";
IfcBridgePartTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBridgeTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBridgeTypeEnum.ARCHED = "ARCHED";
IfcBridgeTypeEnum.CABLE_STAYED = "CABLE_STAYED";
IfcBridgeTypeEnum.CANTILEVER = "CANTILEVER";
IfcBridgeTypeEnum.CULVERT = "CULVERT";
IfcBridgeTypeEnum.FRAMEWORK = "FRAMEWORK";
IfcBridgeTypeEnum.GIRDER = "GIRDER";
IfcBridgeTypeEnum.SUSPENSION = "SUSPENSION";
IfcBridgeTypeEnum.TRUSS = "TRUSS";
IfcBridgeTypeEnum.USERDEFINED = "USERDEFINED";
IfcBridgeTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBuildingElementPartTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBuildingElementPartTypeEnum.INSULATION = "INSULATION";
IfcBuildingElementPartTypeEnum.PRECASTPANEL = "PRECASTPANEL";
IfcBuildingElementPartTypeEnum.APRON = "APRON";
IfcBuildingElementPartTypeEnum.USERDEFINED = "USERDEFINED";
IfcBuildingElementPartTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBuildingElementProxyTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBuildingElementProxyTypeEnum.COMPLEX = "COMPLEX";
IfcBuildingElementProxyTypeEnum.ELEMENT = "ELEMENT";
IfcBuildingElementProxyTypeEnum.PARTIAL = "PARTIAL";
IfcBuildingElementProxyTypeEnum.PROVISIONFORVOID = "PROVISIONFORVOID";
IfcBuildingElementProxyTypeEnum.PROVISIONFORSPACE = "PROVISIONFORSPACE";
IfcBuildingElementProxyTypeEnum.USERDEFINED = "USERDEFINED";
IfcBuildingElementProxyTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBuildingSystemTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBuildingSystemTypeEnum.FENESTRATION = "FENESTRATION";
IfcBuildingSystemTypeEnum.FOUNDATION = "FOUNDATION";
IfcBuildingSystemTypeEnum.LOADBEARING = "LOADBEARING";
IfcBuildingSystemTypeEnum.OUTERSHELL = "OUTERSHELL";
IfcBuildingSystemTypeEnum.SHADING = "SHADING";
IfcBuildingSystemTypeEnum.TRANSPORT = "TRANSPORT";
IfcBuildingSystemTypeEnum.REINFORCING = "REINFORCING";
IfcBuildingSystemTypeEnum.PRESTRESSING = "PRESTRESSING";
IfcBuildingSystemTypeEnum.USERDEFINED = "USERDEFINED";
IfcBuildingSystemTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcBurnerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcBurnerTypeEnum.USERDEFINED = "USERDEFINED";
IfcBurnerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCableCarrierFittingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCableCarrierFittingTypeEnum.BEND = "BEND";
IfcCableCarrierFittingTypeEnum.CROSS = "CROSS";
IfcCableCarrierFittingTypeEnum.REDUCER = "REDUCER";
IfcCableCarrierFittingTypeEnum.TEE = "TEE";
IfcCableCarrierFittingTypeEnum.USERDEFINED = "USERDEFINED";
IfcCableCarrierFittingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCableCarrierSegmentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCableCarrierSegmentTypeEnum.CABLELADDERSEGMENT = "CABLELADDERSEGMENT";
IfcCableCarrierSegmentTypeEnum.CABLETRAYSEGMENT = "CABLETRAYSEGMENT";
IfcCableCarrierSegmentTypeEnum.CABLETRUNKINGSEGMENT = "CABLETRUNKINGSEGMENT";
IfcCableCarrierSegmentTypeEnum.CONDUITSEGMENT = "CONDUITSEGMENT";
IfcCableCarrierSegmentTypeEnum.USERDEFINED = "USERDEFINED";
IfcCableCarrierSegmentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCableFittingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCableFittingTypeEnum.CONNECTOR = "CONNECTOR";
IfcCableFittingTypeEnum.ENTRY = "ENTRY";
IfcCableFittingTypeEnum.EXIT = "EXIT";
IfcCableFittingTypeEnum.JUNCTION = "JUNCTION";
IfcCableFittingTypeEnum.TRANSITION = "TRANSITION";
IfcCableFittingTypeEnum.USERDEFINED = "USERDEFINED";
IfcCableFittingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCableSegmentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCableSegmentTypeEnum.BUSBARSEGMENT = "BUSBARSEGMENT";
IfcCableSegmentTypeEnum.CABLESEGMENT = "CABLESEGMENT";
IfcCableSegmentTypeEnum.CONDUCTORSEGMENT = "CONDUCTORSEGMENT";
IfcCableSegmentTypeEnum.CORESEGMENT = "CORESEGMENT";
IfcCableSegmentTypeEnum.USERDEFINED = "USERDEFINED";
IfcCableSegmentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCaissonFoundationTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCaissonFoundationTypeEnum.WELL = "WELL";
IfcCaissonFoundationTypeEnum.CAISSON = "CAISSON";
IfcCaissonFoundationTypeEnum.USERDEFINED = "USERDEFINED";
IfcCaissonFoundationTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcChangeActionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcChangeActionEnum.NOCHANGE = "NOCHANGE";
IfcChangeActionEnum.MODIFIED = "MODIFIED";
IfcChangeActionEnum.ADDED = "ADDED";
IfcChangeActionEnum.DELETED = "DELETED";
IfcChangeActionEnum.NOTDEFINED = "NOTDEFINED";
var IfcChillerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcChillerTypeEnum.AIRCOOLED = "AIRCOOLED";
IfcChillerTypeEnum.WATERCOOLED = "WATERCOOLED";
IfcChillerTypeEnum.HEATRECOVERY = "HEATRECOVERY";
IfcChillerTypeEnum.USERDEFINED = "USERDEFINED";
IfcChillerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcChimneyTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcChimneyTypeEnum.USERDEFINED = "USERDEFINED";
IfcChimneyTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCoilTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCoilTypeEnum.DXCOOLINGCOIL = "DXCOOLINGCOIL";
IfcCoilTypeEnum.ELECTRICHEATINGCOIL = "ELECTRICHEATINGCOIL";
IfcCoilTypeEnum.GASHEATINGCOIL = "GASHEATINGCOIL";
IfcCoilTypeEnum.HYDRONICCOIL = "HYDRONICCOIL";
IfcCoilTypeEnum.STEAMHEATINGCOIL = "STEAMHEATINGCOIL";
IfcCoilTypeEnum.WATERCOOLINGCOIL = "WATERCOOLINGCOIL";
IfcCoilTypeEnum.WATERHEATINGCOIL = "WATERHEATINGCOIL";
IfcCoilTypeEnum.USERDEFINED = "USERDEFINED";
IfcCoilTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcColumnTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcColumnTypeEnum.COLUMN = "COLUMN";
IfcColumnTypeEnum.PILASTER = "PILASTER";
IfcColumnTypeEnum.PIERSTEM = "PIERSTEM";
IfcColumnTypeEnum.PIERSTEM_SEGMENT = "PIERSTEM_SEGMENT";
IfcColumnTypeEnum.STANDCOLUMN = "STANDCOLUMN";
IfcColumnTypeEnum.USERDEFINED = "USERDEFINED";
IfcColumnTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCommunicationsApplianceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCommunicationsApplianceTypeEnum.ANTENNA = "ANTENNA";
IfcCommunicationsApplianceTypeEnum.COMPUTER = "COMPUTER";
IfcCommunicationsApplianceTypeEnum.FAX = "FAX";
IfcCommunicationsApplianceTypeEnum.GATEWAY = "GATEWAY";
IfcCommunicationsApplianceTypeEnum.MODEM = "MODEM";
IfcCommunicationsApplianceTypeEnum.NETWORKAPPLIANCE = "NETWORKAPPLIANCE";
IfcCommunicationsApplianceTypeEnum.NETWORKBRIDGE = "NETWORKBRIDGE";
IfcCommunicationsApplianceTypeEnum.NETWORKHUB = "NETWORKHUB";
IfcCommunicationsApplianceTypeEnum.PRINTER = "PRINTER";
IfcCommunicationsApplianceTypeEnum.REPEATER = "REPEATER";
IfcCommunicationsApplianceTypeEnum.ROUTER = "ROUTER";
IfcCommunicationsApplianceTypeEnum.SCANNER = "SCANNER";
IfcCommunicationsApplianceTypeEnum.USERDEFINED = "USERDEFINED";
IfcCommunicationsApplianceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcComplexPropertyTemplateTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcComplexPropertyTemplateTypeEnum.P_COMPLEX = "P_COMPLEX";
IfcComplexPropertyTemplateTypeEnum.Q_COMPLEX = "Q_COMPLEX";
var IfcCompressorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCompressorTypeEnum.DYNAMIC = "DYNAMIC";
IfcCompressorTypeEnum.RECIPROCATING = "RECIPROCATING";
IfcCompressorTypeEnum.ROTARY = "ROTARY";
IfcCompressorTypeEnum.SCROLL = "SCROLL";
IfcCompressorTypeEnum.TROCHOIDAL = "TROCHOIDAL";
IfcCompressorTypeEnum.SINGLESTAGE = "SINGLESTAGE";
IfcCompressorTypeEnum.BOOSTER = "BOOSTER";
IfcCompressorTypeEnum.OPENTYPE = "OPENTYPE";
IfcCompressorTypeEnum.HERMETIC = "HERMETIC";
IfcCompressorTypeEnum.SEMIHERMETIC = "SEMIHERMETIC";
IfcCompressorTypeEnum.WELDEDSHELLHERMETIC = "WELDEDSHELLHERMETIC";
IfcCompressorTypeEnum.ROLLINGPISTON = "ROLLINGPISTON";
IfcCompressorTypeEnum.ROTARYVANE = "ROTARYVANE";
IfcCompressorTypeEnum.SINGLESCREW = "SINGLESCREW";
IfcCompressorTypeEnum.TWINSCREW = "TWINSCREW";
IfcCompressorTypeEnum.USERDEFINED = "USERDEFINED";
IfcCompressorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCondenserTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCondenserTypeEnum.AIRCOOLED = "AIRCOOLED";
IfcCondenserTypeEnum.EVAPORATIVECOOLED = "EVAPORATIVECOOLED";
IfcCondenserTypeEnum.WATERCOOLED = "WATERCOOLED";
IfcCondenserTypeEnum.WATERCOOLEDBRAZEDPLATE = "WATERCOOLEDBRAZEDPLATE";
IfcCondenserTypeEnum.WATERCOOLEDSHELLCOIL = "WATERCOOLEDSHELLCOIL";
IfcCondenserTypeEnum.WATERCOOLEDSHELLTUBE = "WATERCOOLEDSHELLTUBE";
IfcCondenserTypeEnum.WATERCOOLEDTUBEINTUBE = "WATERCOOLEDTUBEINTUBE";
IfcCondenserTypeEnum.USERDEFINED = "USERDEFINED";
IfcCondenserTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcConnectionTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcConnectionTypeEnum.ATPATH = "ATPATH";
IfcConnectionTypeEnum.ATSTART = "ATSTART";
IfcConnectionTypeEnum.ATEND = "ATEND";
IfcConnectionTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcConstraintEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcConstraintEnum.HARD = "HARD";
IfcConstraintEnum.SOFT = "SOFT";
IfcConstraintEnum.ADVISORY = "ADVISORY";
IfcConstraintEnum.USERDEFINED = "USERDEFINED";
IfcConstraintEnum.NOTDEFINED = "NOTDEFINED";
var IfcConstructionEquipmentResourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcConstructionEquipmentResourceTypeEnum.DEMOLISHING = "DEMOLISHING";
IfcConstructionEquipmentResourceTypeEnum.EARTHMOVING = "EARTHMOVING";
IfcConstructionEquipmentResourceTypeEnum.ERECTING = "ERECTING";
IfcConstructionEquipmentResourceTypeEnum.HEATING = "HEATING";
IfcConstructionEquipmentResourceTypeEnum.LIGHTING = "LIGHTING";
IfcConstructionEquipmentResourceTypeEnum.PAVING = "PAVING";
IfcConstructionEquipmentResourceTypeEnum.PUMPING = "PUMPING";
IfcConstructionEquipmentResourceTypeEnum.TRANSPORTING = "TRANSPORTING";
IfcConstructionEquipmentResourceTypeEnum.USERDEFINED = "USERDEFINED";
IfcConstructionEquipmentResourceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcConstructionMaterialResourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcConstructionMaterialResourceTypeEnum.AGGREGATES = "AGGREGATES";
IfcConstructionMaterialResourceTypeEnum.CONCRETE = "CONCRETE";
IfcConstructionMaterialResourceTypeEnum.DRYWALL = "DRYWALL";
IfcConstructionMaterialResourceTypeEnum.FUEL = "FUEL";
IfcConstructionMaterialResourceTypeEnum.GYPSUM = "GYPSUM";
IfcConstructionMaterialResourceTypeEnum.MASONRY = "MASONRY";
IfcConstructionMaterialResourceTypeEnum.METAL = "METAL";
IfcConstructionMaterialResourceTypeEnum.PLASTIC = "PLASTIC";
IfcConstructionMaterialResourceTypeEnum.WOOD = "WOOD";
IfcConstructionMaterialResourceTypeEnum.NOTDEFINED = "NOTDEFINED";
IfcConstructionMaterialResourceTypeEnum.USERDEFINED = "USERDEFINED";
var IfcConstructionProductResourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcConstructionProductResourceTypeEnum.ASSEMBLY = "ASSEMBLY";
IfcConstructionProductResourceTypeEnum.FORMWORK = "FORMWORK";
IfcConstructionProductResourceTypeEnum.USERDEFINED = "USERDEFINED";
IfcConstructionProductResourceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcControllerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcControllerTypeEnum.FLOATING = "FLOATING";
IfcControllerTypeEnum.PROGRAMMABLE = "PROGRAMMABLE";
IfcControllerTypeEnum.PROPORTIONAL = "PROPORTIONAL";
IfcControllerTypeEnum.MULTIPOSITION = "MULTIPOSITION";
IfcControllerTypeEnum.TWOPOSITION = "TWOPOSITION";
IfcControllerTypeEnum.USERDEFINED = "USERDEFINED";
IfcControllerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCooledBeamTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCooledBeamTypeEnum.ACTIVE = "ACTIVE";
IfcCooledBeamTypeEnum.PASSIVE = "PASSIVE";
IfcCooledBeamTypeEnum.USERDEFINED = "USERDEFINED";
IfcCooledBeamTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCoolingTowerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCoolingTowerTypeEnum.NATURALDRAFT = "NATURALDRAFT";
IfcCoolingTowerTypeEnum.MECHANICALINDUCEDDRAFT = "MECHANICALINDUCEDDRAFT";
IfcCoolingTowerTypeEnum.MECHANICALFORCEDDRAFT = "MECHANICALFORCEDDRAFT";
IfcCoolingTowerTypeEnum.USERDEFINED = "USERDEFINED";
IfcCoolingTowerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCostItemTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCostItemTypeEnum.USERDEFINED = "USERDEFINED";
IfcCostItemTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCostScheduleTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCostScheduleTypeEnum.BUDGET = "BUDGET";
IfcCostScheduleTypeEnum.COSTPLAN = "COSTPLAN";
IfcCostScheduleTypeEnum.ESTIMATE = "ESTIMATE";
IfcCostScheduleTypeEnum.TENDER = "TENDER";
IfcCostScheduleTypeEnum.PRICEDBILLOFQUANTITIES = "PRICEDBILLOFQUANTITIES";
IfcCostScheduleTypeEnum.UNPRICEDBILLOFQUANTITIES = "UNPRICEDBILLOFQUANTITIES";
IfcCostScheduleTypeEnum.SCHEDULEOFRATES = "SCHEDULEOFRATES";
IfcCostScheduleTypeEnum.USERDEFINED = "USERDEFINED";
IfcCostScheduleTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCoveringTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCoveringTypeEnum.CEILING = "CEILING";
IfcCoveringTypeEnum.FLOORING = "FLOORING";
IfcCoveringTypeEnum.CLADDING = "CLADDING";
IfcCoveringTypeEnum.ROOFING = "ROOFING";
IfcCoveringTypeEnum.MOLDING = "MOLDING";
IfcCoveringTypeEnum.SKIRTINGBOARD = "SKIRTINGBOARD";
IfcCoveringTypeEnum.INSULATION = "INSULATION";
IfcCoveringTypeEnum.MEMBRANE = "MEMBRANE";
IfcCoveringTypeEnum.SLEEVING = "SLEEVING";
IfcCoveringTypeEnum.WRAPPING = "WRAPPING";
IfcCoveringTypeEnum.COPING = "COPING";
IfcCoveringTypeEnum.USERDEFINED = "USERDEFINED";
IfcCoveringTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCrewResourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCrewResourceTypeEnum.OFFICE = "OFFICE";
IfcCrewResourceTypeEnum.SITE = "SITE";
IfcCrewResourceTypeEnum.USERDEFINED = "USERDEFINED";
IfcCrewResourceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCurtainWallTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCurtainWallTypeEnum.USERDEFINED = "USERDEFINED";
IfcCurtainWallTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcCurveInterpolationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcCurveInterpolationEnum.LINEAR = "LINEAR";
IfcCurveInterpolationEnum.LOG_LINEAR = "LOG_LINEAR";
IfcCurveInterpolationEnum.LOG_LOG = "LOG_LOG";
IfcCurveInterpolationEnum.NOTDEFINED = "NOTDEFINED";
var IfcDamperTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDamperTypeEnum.BACKDRAFTDAMPER = "BACKDRAFTDAMPER";
IfcDamperTypeEnum.BALANCINGDAMPER = "BALANCINGDAMPER";
IfcDamperTypeEnum.BLASTDAMPER = "BLASTDAMPER";
IfcDamperTypeEnum.CONTROLDAMPER = "CONTROLDAMPER";
IfcDamperTypeEnum.FIREDAMPER = "FIREDAMPER";
IfcDamperTypeEnum.FIRESMOKEDAMPER = "FIRESMOKEDAMPER";
IfcDamperTypeEnum.FUMEHOODEXHAUST = "FUMEHOODEXHAUST";
IfcDamperTypeEnum.GRAVITYDAMPER = "GRAVITYDAMPER";
IfcDamperTypeEnum.GRAVITYRELIEFDAMPER = "GRAVITYRELIEFDAMPER";
IfcDamperTypeEnum.RELIEFDAMPER = "RELIEFDAMPER";
IfcDamperTypeEnum.SMOKEDAMPER = "SMOKEDAMPER";
IfcDamperTypeEnum.USERDEFINED = "USERDEFINED";
IfcDamperTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDataOriginEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDataOriginEnum.MEASURED = "MEASURED";
IfcDataOriginEnum.PREDICTED = "PREDICTED";
IfcDataOriginEnum.SIMULATED = "SIMULATED";
IfcDataOriginEnum.USERDEFINED = "USERDEFINED";
IfcDataOriginEnum.NOTDEFINED = "NOTDEFINED";
var IfcDerivedUnitEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDerivedUnitEnum.ANGULARVELOCITYUNIT = "ANGULARVELOCITYUNIT";
IfcDerivedUnitEnum.AREADENSITYUNIT = "AREADENSITYUNIT";
IfcDerivedUnitEnum.COMPOUNDPLANEANGLEUNIT = "COMPOUNDPLANEANGLEUNIT";
IfcDerivedUnitEnum.DYNAMICVISCOSITYUNIT = "DYNAMICVISCOSITYUNIT";
IfcDerivedUnitEnum.HEATFLUXDENSITYUNIT = "HEATFLUXDENSITYUNIT";
IfcDerivedUnitEnum.INTEGERCOUNTRATEUNIT = "INTEGERCOUNTRATEUNIT";
IfcDerivedUnitEnum.ISOTHERMALMOISTURECAPACITYUNIT = "ISOTHERMALMOISTURECAPACITYUNIT";
IfcDerivedUnitEnum.KINEMATICVISCOSITYUNIT = "KINEMATICVISCOSITYUNIT";
IfcDerivedUnitEnum.LINEARVELOCITYUNIT = "LINEARVELOCITYUNIT";
IfcDerivedUnitEnum.MASSDENSITYUNIT = "MASSDENSITYUNIT";
IfcDerivedUnitEnum.MASSFLOWRATEUNIT = "MASSFLOWRATEUNIT";
IfcDerivedUnitEnum.MOISTUREDIFFUSIVITYUNIT = "MOISTUREDIFFUSIVITYUNIT";
IfcDerivedUnitEnum.MOLECULARWEIGHTUNIT = "MOLECULARWEIGHTUNIT";
IfcDerivedUnitEnum.SPECIFICHEATCAPACITYUNIT = "SPECIFICHEATCAPACITYUNIT";
IfcDerivedUnitEnum.THERMALADMITTANCEUNIT = "THERMALADMITTANCEUNIT";
IfcDerivedUnitEnum.THERMALCONDUCTANCEUNIT = "THERMALCONDUCTANCEUNIT";
IfcDerivedUnitEnum.THERMALRESISTANCEUNIT = "THERMALRESISTANCEUNIT";
IfcDerivedUnitEnum.THERMALTRANSMITTANCEUNIT = "THERMALTRANSMITTANCEUNIT";
IfcDerivedUnitEnum.VAPORPERMEABILITYUNIT = "VAPORPERMEABILITYUNIT";
IfcDerivedUnitEnum.VOLUMETRICFLOWRATEUNIT = "VOLUMETRICFLOWRATEUNIT";
IfcDerivedUnitEnum.ROTATIONALFREQUENCYUNIT = "ROTATIONALFREQUENCYUNIT";
IfcDerivedUnitEnum.TORQUEUNIT = "TORQUEUNIT";
IfcDerivedUnitEnum.MOMENTOFINERTIAUNIT = "MOMENTOFINERTIAUNIT";
IfcDerivedUnitEnum.LINEARMOMENTUNIT = "LINEARMOMENTUNIT";
IfcDerivedUnitEnum.LINEARFORCEUNIT = "LINEARFORCEUNIT";
IfcDerivedUnitEnum.PLANARFORCEUNIT = "PLANARFORCEUNIT";
IfcDerivedUnitEnum.MODULUSOFELASTICITYUNIT = "MODULUSOFELASTICITYUNIT";
IfcDerivedUnitEnum.SHEARMODULUSUNIT = "SHEARMODULUSUNIT";
IfcDerivedUnitEnum.LINEARSTIFFNESSUNIT = "LINEARSTIFFNESSUNIT";
IfcDerivedUnitEnum.ROTATIONALSTIFFNESSUNIT = "ROTATIONALSTIFFNESSUNIT";
IfcDerivedUnitEnum.MODULUSOFSUBGRADEREACTIONUNIT = "MODULUSOFSUBGRADEREACTIONUNIT";
IfcDerivedUnitEnum.ACCELERATIONUNIT = "ACCELERATIONUNIT";
IfcDerivedUnitEnum.CURVATUREUNIT = "CURVATUREUNIT";
IfcDerivedUnitEnum.HEATINGVALUEUNIT = "HEATINGVALUEUNIT";
IfcDerivedUnitEnum.IONCONCENTRATIONUNIT = "IONCONCENTRATIONUNIT";
IfcDerivedUnitEnum.LUMINOUSINTENSITYDISTRIBUTIONUNIT = "LUMINOUSINTENSITYDISTRIBUTIONUNIT";
IfcDerivedUnitEnum.MASSPERLENGTHUNIT = "MASSPERLENGTHUNIT";
IfcDerivedUnitEnum.MODULUSOFLINEARSUBGRADEREACTIONUNIT = "MODULUSOFLINEARSUBGRADEREACTIONUNIT";
IfcDerivedUnitEnum.MODULUSOFROTATIONALSUBGRADEREACTIONUNIT = "MODULUSOFROTATIONALSUBGRADEREACTIONUNIT";
IfcDerivedUnitEnum.PHUNIT = "PHUNIT";
IfcDerivedUnitEnum.ROTATIONALMASSUNIT = "ROTATIONALMASSUNIT";
IfcDerivedUnitEnum.SECTIONAREAINTEGRALUNIT = "SECTIONAREAINTEGRALUNIT";
IfcDerivedUnitEnum.SECTIONMODULUSUNIT = "SECTIONMODULUSUNIT";
IfcDerivedUnitEnum.SOUNDPOWERLEVELUNIT = "SOUNDPOWERLEVELUNIT";
IfcDerivedUnitEnum.SOUNDPOWERUNIT = "SOUNDPOWERUNIT";
IfcDerivedUnitEnum.SOUNDPRESSURELEVELUNIT = "SOUNDPRESSURELEVELUNIT";
IfcDerivedUnitEnum.SOUNDPRESSUREUNIT = "SOUNDPRESSUREUNIT";
IfcDerivedUnitEnum.TEMPERATUREGRADIENTUNIT = "TEMPERATUREGRADIENTUNIT";
IfcDerivedUnitEnum.TEMPERATURERATEOFCHANGEUNIT = "TEMPERATURERATEOFCHANGEUNIT";
IfcDerivedUnitEnum.THERMALEXPANSIONCOEFFICIENTUNIT = "THERMALEXPANSIONCOEFFICIENTUNIT";
IfcDerivedUnitEnum.WARPINGCONSTANTUNIT = "WARPINGCONSTANTUNIT";
IfcDerivedUnitEnum.WARPINGMOMENTUNIT = "WARPINGMOMENTUNIT";
IfcDerivedUnitEnum.USERDEFINED = "USERDEFINED";
var IfcDirectionSenseEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDirectionSenseEnum.POSITIVE = "POSITIVE";
IfcDirectionSenseEnum.NEGATIVE = "NEGATIVE";
var IfcDiscreteAccessoryTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDiscreteAccessoryTypeEnum.ANCHORPLATE = "ANCHORPLATE";
IfcDiscreteAccessoryTypeEnum.BRACKET = "BRACKET";
IfcDiscreteAccessoryTypeEnum.SHOE = "SHOE";
IfcDiscreteAccessoryTypeEnum.EXPANSION_JOINT_DEVICE = "EXPANSION_JOINT_DEVICE";
IfcDiscreteAccessoryTypeEnum.USERDEFINED = "USERDEFINED";
IfcDiscreteAccessoryTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDistributionChamberElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDistributionChamberElementTypeEnum.FORMEDDUCT = "FORMEDDUCT";
IfcDistributionChamberElementTypeEnum.INSPECTIONCHAMBER = "INSPECTIONCHAMBER";
IfcDistributionChamberElementTypeEnum.INSPECTIONPIT = "INSPECTIONPIT";
IfcDistributionChamberElementTypeEnum.MANHOLE = "MANHOLE";
IfcDistributionChamberElementTypeEnum.METERCHAMBER = "METERCHAMBER";
IfcDistributionChamberElementTypeEnum.SUMP = "SUMP";
IfcDistributionChamberElementTypeEnum.TRENCH = "TRENCH";
IfcDistributionChamberElementTypeEnum.VALVECHAMBER = "VALVECHAMBER";
IfcDistributionChamberElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcDistributionChamberElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDistributionPortTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDistributionPortTypeEnum.CABLE = "CABLE";
IfcDistributionPortTypeEnum.CABLECARRIER = "CABLECARRIER";
IfcDistributionPortTypeEnum.DUCT = "DUCT";
IfcDistributionPortTypeEnum.PIPE = "PIPE";
IfcDistributionPortTypeEnum.USERDEFINED = "USERDEFINED";
IfcDistributionPortTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDistributionSystemEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDistributionSystemEnum.AIRCONDITIONING = "AIRCONDITIONING";
IfcDistributionSystemEnum.AUDIOVISUAL = "AUDIOVISUAL";
IfcDistributionSystemEnum.CHEMICAL = "CHEMICAL";
IfcDistributionSystemEnum.CHILLEDWATER = "CHILLEDWATER";
IfcDistributionSystemEnum.COMMUNICATION = "COMMUNICATION";
IfcDistributionSystemEnum.COMPRESSEDAIR = "COMPRESSEDAIR";
IfcDistributionSystemEnum.CONDENSERWATER = "CONDENSERWATER";
IfcDistributionSystemEnum.CONTROL = "CONTROL";
IfcDistributionSystemEnum.CONVEYING = "CONVEYING";
IfcDistributionSystemEnum.DATA = "DATA";
IfcDistributionSystemEnum.DISPOSAL = "DISPOSAL";
IfcDistributionSystemEnum.DOMESTICCOLDWATER = "DOMESTICCOLDWATER";
IfcDistributionSystemEnum.DOMESTICHOTWATER = "DOMESTICHOTWATER";
IfcDistributionSystemEnum.DRAINAGE = "DRAINAGE";
IfcDistributionSystemEnum.EARTHING = "EARTHING";
IfcDistributionSystemEnum.ELECTRICAL = "ELECTRICAL";
IfcDistributionSystemEnum.ELECTROACOUSTIC = "ELECTROACOUSTIC";
IfcDistributionSystemEnum.EXHAUST = "EXHAUST";
IfcDistributionSystemEnum.FIREPROTECTION = "FIREPROTECTION";
IfcDistributionSystemEnum.FUEL = "FUEL";
IfcDistributionSystemEnum.GAS = "GAS";
IfcDistributionSystemEnum.HAZARDOUS = "HAZARDOUS";
IfcDistributionSystemEnum.HEATING = "HEATING";
IfcDistributionSystemEnum.LIGHTING = "LIGHTING";
IfcDistributionSystemEnum.LIGHTNINGPROTECTION = "LIGHTNINGPROTECTION";
IfcDistributionSystemEnum.MUNICIPALSOLIDWASTE = "MUNICIPALSOLIDWASTE";
IfcDistributionSystemEnum.OIL = "OIL";
IfcDistributionSystemEnum.OPERATIONAL = "OPERATIONAL";
IfcDistributionSystemEnum.POWERGENERATION = "POWERGENERATION";
IfcDistributionSystemEnum.RAINWATER = "RAINWATER";
IfcDistributionSystemEnum.REFRIGERATION = "REFRIGERATION";
IfcDistributionSystemEnum.SECURITY = "SECURITY";
IfcDistributionSystemEnum.SEWAGE = "SEWAGE";
IfcDistributionSystemEnum.SIGNAL = "SIGNAL";
IfcDistributionSystemEnum.STORMWATER = "STORMWATER";
IfcDistributionSystemEnum.TELEPHONE = "TELEPHONE";
IfcDistributionSystemEnum.TV = "TV";
IfcDistributionSystemEnum.VACUUM = "VACUUM";
IfcDistributionSystemEnum.VENT = "VENT";
IfcDistributionSystemEnum.VENTILATION = "VENTILATION";
IfcDistributionSystemEnum.WASTEWATER = "WASTEWATER";
IfcDistributionSystemEnum.WATERSUPPLY = "WATERSUPPLY";
IfcDistributionSystemEnum.USERDEFINED = "USERDEFINED";
IfcDistributionSystemEnum.NOTDEFINED = "NOTDEFINED";
var IfcDocumentConfidentialityEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDocumentConfidentialityEnum.PUBLIC = "PUBLIC";
IfcDocumentConfidentialityEnum.RESTRICTED = "RESTRICTED";
IfcDocumentConfidentialityEnum.CONFIDENTIAL = "CONFIDENTIAL";
IfcDocumentConfidentialityEnum.PERSONAL = "PERSONAL";
IfcDocumentConfidentialityEnum.USERDEFINED = "USERDEFINED";
IfcDocumentConfidentialityEnum.NOTDEFINED = "NOTDEFINED";
var IfcDocumentStatusEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDocumentStatusEnum.DRAFT = "DRAFT";
IfcDocumentStatusEnum.FINALDRAFT = "FINALDRAFT";
IfcDocumentStatusEnum.FINAL = "FINAL";
IfcDocumentStatusEnum.REVISION = "REVISION";
IfcDocumentStatusEnum.NOTDEFINED = "NOTDEFINED";
var IfcDoorPanelOperationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDoorPanelOperationEnum.SWINGING = "SWINGING";
IfcDoorPanelOperationEnum.DOUBLE_ACTING = "DOUBLE_ACTING";
IfcDoorPanelOperationEnum.SLIDING = "SLIDING";
IfcDoorPanelOperationEnum.FOLDING = "FOLDING";
IfcDoorPanelOperationEnum.REVOLVING = "REVOLVING";
IfcDoorPanelOperationEnum.ROLLINGUP = "ROLLINGUP";
IfcDoorPanelOperationEnum.FIXEDPANEL = "FIXEDPANEL";
IfcDoorPanelOperationEnum.USERDEFINED = "USERDEFINED";
IfcDoorPanelOperationEnum.NOTDEFINED = "NOTDEFINED";
var IfcDoorPanelPositionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDoorPanelPositionEnum.LEFT = "LEFT";
IfcDoorPanelPositionEnum.MIDDLE = "MIDDLE";
IfcDoorPanelPositionEnum.RIGHT = "RIGHT";
IfcDoorPanelPositionEnum.NOTDEFINED = "NOTDEFINED";
var IfcDoorStyleConstructionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDoorStyleConstructionEnum.ALUMINIUM = "ALUMINIUM";
IfcDoorStyleConstructionEnum.HIGH_GRADE_STEEL = "HIGH_GRADE_STEEL";
IfcDoorStyleConstructionEnum.STEEL = "STEEL";
IfcDoorStyleConstructionEnum.WOOD = "WOOD";
IfcDoorStyleConstructionEnum.ALUMINIUM_WOOD = "ALUMINIUM_WOOD";
IfcDoorStyleConstructionEnum.ALUMINIUM_PLASTIC = "ALUMINIUM_PLASTIC";
IfcDoorStyleConstructionEnum.PLASTIC = "PLASTIC";
IfcDoorStyleConstructionEnum.USERDEFINED = "USERDEFINED";
IfcDoorStyleConstructionEnum.NOTDEFINED = "NOTDEFINED";
var IfcDoorStyleOperationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDoorStyleOperationEnum.SINGLE_SWING_LEFT = "SINGLE_SWING_LEFT";
IfcDoorStyleOperationEnum.SINGLE_SWING_RIGHT = "SINGLE_SWING_RIGHT";
IfcDoorStyleOperationEnum.DOUBLE_DOOR_SINGLE_SWING = "DOUBLE_DOOR_SINGLE_SWING";
IfcDoorStyleOperationEnum.DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_LEFT = "DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_LEFT";
IfcDoorStyleOperationEnum.DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_RIGHT = "DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_RIGHT";
IfcDoorStyleOperationEnum.DOUBLE_SWING_LEFT = "DOUBLE_SWING_LEFT";
IfcDoorStyleOperationEnum.DOUBLE_SWING_RIGHT = "DOUBLE_SWING_RIGHT";
IfcDoorStyleOperationEnum.DOUBLE_DOOR_DOUBLE_SWING = "DOUBLE_DOOR_DOUBLE_SWING";
IfcDoorStyleOperationEnum.SLIDING_TO_LEFT = "SLIDING_TO_LEFT";
IfcDoorStyleOperationEnum.SLIDING_TO_RIGHT = "SLIDING_TO_RIGHT";
IfcDoorStyleOperationEnum.DOUBLE_DOOR_SLIDING = "DOUBLE_DOOR_SLIDING";
IfcDoorStyleOperationEnum.FOLDING_TO_LEFT = "FOLDING_TO_LEFT";
IfcDoorStyleOperationEnum.FOLDING_TO_RIGHT = "FOLDING_TO_RIGHT";
IfcDoorStyleOperationEnum.DOUBLE_DOOR_FOLDING = "DOUBLE_DOOR_FOLDING";
IfcDoorStyleOperationEnum.REVOLVING = "REVOLVING";
IfcDoorStyleOperationEnum.ROLLINGUP = "ROLLINGUP";
IfcDoorStyleOperationEnum.USERDEFINED = "USERDEFINED";
IfcDoorStyleOperationEnum.NOTDEFINED = "NOTDEFINED";
var IfcDoorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDoorTypeEnum.DOOR = "DOOR";
IfcDoorTypeEnum.GATE = "GATE";
IfcDoorTypeEnum.TRAPDOOR = "TRAPDOOR";
IfcDoorTypeEnum.USERDEFINED = "USERDEFINED";
IfcDoorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDoorTypeOperationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDoorTypeOperationEnum.SINGLE_SWING_LEFT = "SINGLE_SWING_LEFT";
IfcDoorTypeOperationEnum.SINGLE_SWING_RIGHT = "SINGLE_SWING_RIGHT";
IfcDoorTypeOperationEnum.DOUBLE_DOOR_SINGLE_SWING = "DOUBLE_DOOR_SINGLE_SWING";
IfcDoorTypeOperationEnum.DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_LEFT = "DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_LEFT";
IfcDoorTypeOperationEnum.DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_RIGHT = "DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_RIGHT";
IfcDoorTypeOperationEnum.DOUBLE_SWING_LEFT = "DOUBLE_SWING_LEFT";
IfcDoorTypeOperationEnum.DOUBLE_SWING_RIGHT = "DOUBLE_SWING_RIGHT";
IfcDoorTypeOperationEnum.DOUBLE_DOOR_DOUBLE_SWING = "DOUBLE_DOOR_DOUBLE_SWING";
IfcDoorTypeOperationEnum.SLIDING_TO_LEFT = "SLIDING_TO_LEFT";
IfcDoorTypeOperationEnum.SLIDING_TO_RIGHT = "SLIDING_TO_RIGHT";
IfcDoorTypeOperationEnum.DOUBLE_DOOR_SLIDING = "DOUBLE_DOOR_SLIDING";
IfcDoorTypeOperationEnum.FOLDING_TO_LEFT = "FOLDING_TO_LEFT";
IfcDoorTypeOperationEnum.FOLDING_TO_RIGHT = "FOLDING_TO_RIGHT";
IfcDoorTypeOperationEnum.DOUBLE_DOOR_FOLDING = "DOUBLE_DOOR_FOLDING";
IfcDoorTypeOperationEnum.REVOLVING = "REVOLVING";
IfcDoorTypeOperationEnum.ROLLINGUP = "ROLLINGUP";
IfcDoorTypeOperationEnum.SWING_FIXED_LEFT = "SWING_FIXED_LEFT";
IfcDoorTypeOperationEnum.SWING_FIXED_RIGHT = "SWING_FIXED_RIGHT";
IfcDoorTypeOperationEnum.USERDEFINED = "USERDEFINED";
IfcDoorTypeOperationEnum.NOTDEFINED = "NOTDEFINED";
var IfcDuctFittingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDuctFittingTypeEnum.BEND = "BEND";
IfcDuctFittingTypeEnum.CONNECTOR = "CONNECTOR";
IfcDuctFittingTypeEnum.ENTRY = "ENTRY";
IfcDuctFittingTypeEnum.EXIT = "EXIT";
IfcDuctFittingTypeEnum.JUNCTION = "JUNCTION";
IfcDuctFittingTypeEnum.OBSTRUCTION = "OBSTRUCTION";
IfcDuctFittingTypeEnum.TRANSITION = "TRANSITION";
IfcDuctFittingTypeEnum.USERDEFINED = "USERDEFINED";
IfcDuctFittingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDuctSegmentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDuctSegmentTypeEnum.RIGIDSEGMENT = "RIGIDSEGMENT";
IfcDuctSegmentTypeEnum.FLEXIBLESEGMENT = "FLEXIBLESEGMENT";
IfcDuctSegmentTypeEnum.USERDEFINED = "USERDEFINED";
IfcDuctSegmentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcDuctSilencerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcDuctSilencerTypeEnum.FLATOVAL = "FLATOVAL";
IfcDuctSilencerTypeEnum.RECTANGULAR = "RECTANGULAR";
IfcDuctSilencerTypeEnum.ROUND = "ROUND";
IfcDuctSilencerTypeEnum.USERDEFINED = "USERDEFINED";
IfcDuctSilencerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElectricApplianceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElectricApplianceTypeEnum.DISHWASHER = "DISHWASHER";
IfcElectricApplianceTypeEnum.ELECTRICCOOKER = "ELECTRICCOOKER";
IfcElectricApplianceTypeEnum.FREESTANDINGELECTRICHEATER = "FREESTANDINGELECTRICHEATER";
IfcElectricApplianceTypeEnum.FREESTANDINGFAN = "FREESTANDINGFAN";
IfcElectricApplianceTypeEnum.FREESTANDINGWATERHEATER = "FREESTANDINGWATERHEATER";
IfcElectricApplianceTypeEnum.FREESTANDINGWATERCOOLER = "FREESTANDINGWATERCOOLER";
IfcElectricApplianceTypeEnum.FREEZER = "FREEZER";
IfcElectricApplianceTypeEnum.FRIDGE_FREEZER = "FRIDGE_FREEZER";
IfcElectricApplianceTypeEnum.HANDDRYER = "HANDDRYER";
IfcElectricApplianceTypeEnum.KITCHENMACHINE = "KITCHENMACHINE";
IfcElectricApplianceTypeEnum.MICROWAVE = "MICROWAVE";
IfcElectricApplianceTypeEnum.PHOTOCOPIER = "PHOTOCOPIER";
IfcElectricApplianceTypeEnum.REFRIGERATOR = "REFRIGERATOR";
IfcElectricApplianceTypeEnum.TUMBLEDRYER = "TUMBLEDRYER";
IfcElectricApplianceTypeEnum.VENDINGMACHINE = "VENDINGMACHINE";
IfcElectricApplianceTypeEnum.WASHINGMACHINE = "WASHINGMACHINE";
IfcElectricApplianceTypeEnum.USERDEFINED = "USERDEFINED";
IfcElectricApplianceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElectricDistributionBoardTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElectricDistributionBoardTypeEnum.CONSUMERUNIT = "CONSUMERUNIT";
IfcElectricDistributionBoardTypeEnum.DISTRIBUTIONBOARD = "DISTRIBUTIONBOARD";
IfcElectricDistributionBoardTypeEnum.MOTORCONTROLCENTRE = "MOTORCONTROLCENTRE";
IfcElectricDistributionBoardTypeEnum.SWITCHBOARD = "SWITCHBOARD";
IfcElectricDistributionBoardTypeEnum.USERDEFINED = "USERDEFINED";
IfcElectricDistributionBoardTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElectricFlowStorageDeviceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElectricFlowStorageDeviceTypeEnum.BATTERY = "BATTERY";
IfcElectricFlowStorageDeviceTypeEnum.CAPACITORBANK = "CAPACITORBANK";
IfcElectricFlowStorageDeviceTypeEnum.HARMONICFILTER = "HARMONICFILTER";
IfcElectricFlowStorageDeviceTypeEnum.INDUCTORBANK = "INDUCTORBANK";
IfcElectricFlowStorageDeviceTypeEnum.UPS = "UPS";
IfcElectricFlowStorageDeviceTypeEnum.USERDEFINED = "USERDEFINED";
IfcElectricFlowStorageDeviceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElectricGeneratorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElectricGeneratorTypeEnum.CHP = "CHP";
IfcElectricGeneratorTypeEnum.ENGINEGENERATOR = "ENGINEGENERATOR";
IfcElectricGeneratorTypeEnum.STANDALONE = "STANDALONE";
IfcElectricGeneratorTypeEnum.USERDEFINED = "USERDEFINED";
IfcElectricGeneratorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElectricMotorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElectricMotorTypeEnum.DC = "DC";
IfcElectricMotorTypeEnum.INDUCTION = "INDUCTION";
IfcElectricMotorTypeEnum.POLYPHASE = "POLYPHASE";
IfcElectricMotorTypeEnum.RELUCTANCESYNCHRONOUS = "RELUCTANCESYNCHRONOUS";
IfcElectricMotorTypeEnum.SYNCHRONOUS = "SYNCHRONOUS";
IfcElectricMotorTypeEnum.USERDEFINED = "USERDEFINED";
IfcElectricMotorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElectricTimeControlTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElectricTimeControlTypeEnum.TIMECLOCK = "TIMECLOCK";
IfcElectricTimeControlTypeEnum.TIMEDELAY = "TIMEDELAY";
IfcElectricTimeControlTypeEnum.RELAY = "RELAY";
IfcElectricTimeControlTypeEnum.USERDEFINED = "USERDEFINED";
IfcElectricTimeControlTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElementAssemblyTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElementAssemblyTypeEnum.ACCESSORY_ASSEMBLY = "ACCESSORY_ASSEMBLY";
IfcElementAssemblyTypeEnum.ARCH = "ARCH";
IfcElementAssemblyTypeEnum.BEAM_GRID = "BEAM_GRID";
IfcElementAssemblyTypeEnum.BRACED_FRAME = "BRACED_FRAME";
IfcElementAssemblyTypeEnum.GIRDER = "GIRDER";
IfcElementAssemblyTypeEnum.REINFORCEMENT_UNIT = "REINFORCEMENT_UNIT";
IfcElementAssemblyTypeEnum.RIGID_FRAME = "RIGID_FRAME";
IfcElementAssemblyTypeEnum.SLAB_FIELD = "SLAB_FIELD";
IfcElementAssemblyTypeEnum.TRUSS = "TRUSS";
IfcElementAssemblyTypeEnum.ABUTMENT = "ABUTMENT";
IfcElementAssemblyTypeEnum.PIER = "PIER";
IfcElementAssemblyTypeEnum.PYLON = "PYLON";
IfcElementAssemblyTypeEnum.CROSS_BRACING = "CROSS_BRACING";
IfcElementAssemblyTypeEnum.DECK = "DECK";
IfcElementAssemblyTypeEnum.USERDEFINED = "USERDEFINED";
IfcElementAssemblyTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcElementCompositionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcElementCompositionEnum.COMPLEX = "COMPLEX";
IfcElementCompositionEnum.ELEMENT = "ELEMENT";
IfcElementCompositionEnum.PARTIAL = "PARTIAL";
var IfcEngineTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcEngineTypeEnum.EXTERNALCOMBUSTION = "EXTERNALCOMBUSTION";
IfcEngineTypeEnum.INTERNALCOMBUSTION = "INTERNALCOMBUSTION";
IfcEngineTypeEnum.USERDEFINED = "USERDEFINED";
IfcEngineTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcEvaporativeCoolerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcEvaporativeCoolerTypeEnum.DIRECTEVAPORATIVERANDOMMEDIAAIRCOOLER = "DIRECTEVAPORATIVERANDOMMEDIAAIRCOOLER";
IfcEvaporativeCoolerTypeEnum.DIRECTEVAPORATIVERIGIDMEDIAAIRCOOLER = "DIRECTEVAPORATIVERIGIDMEDIAAIRCOOLER";
IfcEvaporativeCoolerTypeEnum.DIRECTEVAPORATIVESLINGERSPACKAGEDAIRCOOLER = "DIRECTEVAPORATIVESLINGERSPACKAGEDAIRCOOLER";
IfcEvaporativeCoolerTypeEnum.DIRECTEVAPORATIVEPACKAGEDROTARYAIRCOOLER = "DIRECTEVAPORATIVEPACKAGEDROTARYAIRCOOLER";
IfcEvaporativeCoolerTypeEnum.DIRECTEVAPORATIVEAIRWASHER = "DIRECTEVAPORATIVEAIRWASHER";
IfcEvaporativeCoolerTypeEnum.INDIRECTEVAPORATIVEPACKAGEAIRCOOLER = "INDIRECTEVAPORATIVEPACKAGEAIRCOOLER";
IfcEvaporativeCoolerTypeEnum.INDIRECTEVAPORATIVEWETCOIL = "INDIRECTEVAPORATIVEWETCOIL";
IfcEvaporativeCoolerTypeEnum.INDIRECTEVAPORATIVECOOLINGTOWERORCOILCOOLER = "INDIRECTEVAPORATIVECOOLINGTOWERORCOILCOOLER";
IfcEvaporativeCoolerTypeEnum.INDIRECTDIRECTCOMBINATION = "INDIRECTDIRECTCOMBINATION";
IfcEvaporativeCoolerTypeEnum.USERDEFINED = "USERDEFINED";
IfcEvaporativeCoolerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcEvaporatorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcEvaporatorTypeEnum.DIRECTEXPANSION = "DIRECTEXPANSION";
IfcEvaporatorTypeEnum.DIRECTEXPANSIONSHELLANDTUBE = "DIRECTEXPANSIONSHELLANDTUBE";
IfcEvaporatorTypeEnum.DIRECTEXPANSIONTUBEINTUBE = "DIRECTEXPANSIONTUBEINTUBE";
IfcEvaporatorTypeEnum.DIRECTEXPANSIONBRAZEDPLATE = "DIRECTEXPANSIONBRAZEDPLATE";
IfcEvaporatorTypeEnum.FLOODEDSHELLANDTUBE = "FLOODEDSHELLANDTUBE";
IfcEvaporatorTypeEnum.SHELLANDCOIL = "SHELLANDCOIL";
IfcEvaporatorTypeEnum.USERDEFINED = "USERDEFINED";
IfcEvaporatorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcEventTriggerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcEventTriggerTypeEnum.EVENTRULE = "EVENTRULE";
IfcEventTriggerTypeEnum.EVENTMESSAGE = "EVENTMESSAGE";
IfcEventTriggerTypeEnum.EVENTTIME = "EVENTTIME";
IfcEventTriggerTypeEnum.EVENTCOMPLEX = "EVENTCOMPLEX";
IfcEventTriggerTypeEnum.USERDEFINED = "USERDEFINED";
IfcEventTriggerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcEventTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcEventTypeEnum.STARTEVENT = "STARTEVENT";
IfcEventTypeEnum.ENDEVENT = "ENDEVENT";
IfcEventTypeEnum.INTERMEDIATEEVENT = "INTERMEDIATEEVENT";
IfcEventTypeEnum.USERDEFINED = "USERDEFINED";
IfcEventTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcExternalSpatialElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcExternalSpatialElementTypeEnum.EXTERNAL = "EXTERNAL";
IfcExternalSpatialElementTypeEnum.EXTERNAL_EARTH = "EXTERNAL_EARTH";
IfcExternalSpatialElementTypeEnum.EXTERNAL_WATER = "EXTERNAL_WATER";
IfcExternalSpatialElementTypeEnum.EXTERNAL_FIRE = "EXTERNAL_FIRE";
IfcExternalSpatialElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcExternalSpatialElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFanTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFanTypeEnum.CENTRIFUGALFORWARDCURVED = "CENTRIFUGALFORWARDCURVED";
IfcFanTypeEnum.CENTRIFUGALRADIAL = "CENTRIFUGALRADIAL";
IfcFanTypeEnum.CENTRIFUGALBACKWARDINCLINEDCURVED = "CENTRIFUGALBACKWARDINCLINEDCURVED";
IfcFanTypeEnum.CENTRIFUGALAIRFOIL = "CENTRIFUGALAIRFOIL";
IfcFanTypeEnum.TUBEAXIAL = "TUBEAXIAL";
IfcFanTypeEnum.VANEAXIAL = "VANEAXIAL";
IfcFanTypeEnum.PROPELLORAXIAL = "PROPELLORAXIAL";
IfcFanTypeEnum.USERDEFINED = "USERDEFINED";
IfcFanTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFastenerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFastenerTypeEnum.GLUE = "GLUE";
IfcFastenerTypeEnum.MORTAR = "MORTAR";
IfcFastenerTypeEnum.WELD = "WELD";
IfcFastenerTypeEnum.USERDEFINED = "USERDEFINED";
IfcFastenerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFilterTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFilterTypeEnum.AIRPARTICLEFILTER = "AIRPARTICLEFILTER";
IfcFilterTypeEnum.COMPRESSEDAIRFILTER = "COMPRESSEDAIRFILTER";
IfcFilterTypeEnum.ODORFILTER = "ODORFILTER";
IfcFilterTypeEnum.OILFILTER = "OILFILTER";
IfcFilterTypeEnum.STRAINER = "STRAINER";
IfcFilterTypeEnum.WATERFILTER = "WATERFILTER";
IfcFilterTypeEnum.USERDEFINED = "USERDEFINED";
IfcFilterTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFireSuppressionTerminalTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFireSuppressionTerminalTypeEnum.BREECHINGINLET = "BREECHINGINLET";
IfcFireSuppressionTerminalTypeEnum.FIREHYDRANT = "FIREHYDRANT";
IfcFireSuppressionTerminalTypeEnum.HOSEREEL = "HOSEREEL";
IfcFireSuppressionTerminalTypeEnum.SPRINKLER = "SPRINKLER";
IfcFireSuppressionTerminalTypeEnum.SPRINKLERDEFLECTOR = "SPRINKLERDEFLECTOR";
IfcFireSuppressionTerminalTypeEnum.USERDEFINED = "USERDEFINED";
IfcFireSuppressionTerminalTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFlowDirectionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFlowDirectionEnum.SOURCE = "SOURCE";
IfcFlowDirectionEnum.SINK = "SINK";
IfcFlowDirectionEnum.SOURCEANDSINK = "SOURCEANDSINK";
IfcFlowDirectionEnum.NOTDEFINED = "NOTDEFINED";
var IfcFlowInstrumentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFlowInstrumentTypeEnum.PRESSUREGAUGE = "PRESSUREGAUGE";
IfcFlowInstrumentTypeEnum.THERMOMETER = "THERMOMETER";
IfcFlowInstrumentTypeEnum.AMMETER = "AMMETER";
IfcFlowInstrumentTypeEnum.FREQUENCYMETER = "FREQUENCYMETER";
IfcFlowInstrumentTypeEnum.POWERFACTORMETER = "POWERFACTORMETER";
IfcFlowInstrumentTypeEnum.PHASEANGLEMETER = "PHASEANGLEMETER";
IfcFlowInstrumentTypeEnum.VOLTMETER_PEAK = "VOLTMETER_PEAK";
IfcFlowInstrumentTypeEnum.VOLTMETER_RMS = "VOLTMETER_RMS";
IfcFlowInstrumentTypeEnum.USERDEFINED = "USERDEFINED";
IfcFlowInstrumentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFlowMeterTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFlowMeterTypeEnum.ENERGYMETER = "ENERGYMETER";
IfcFlowMeterTypeEnum.GASMETER = "GASMETER";
IfcFlowMeterTypeEnum.OILMETER = "OILMETER";
IfcFlowMeterTypeEnum.WATERMETER = "WATERMETER";
IfcFlowMeterTypeEnum.USERDEFINED = "USERDEFINED";
IfcFlowMeterTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFootingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFootingTypeEnum.CAISSON_FOUNDATION = "CAISSON_FOUNDATION";
IfcFootingTypeEnum.FOOTING_BEAM = "FOOTING_BEAM";
IfcFootingTypeEnum.PAD_FOOTING = "PAD_FOOTING";
IfcFootingTypeEnum.PILE_CAP = "PILE_CAP";
IfcFootingTypeEnum.STRIP_FOOTING = "STRIP_FOOTING";
IfcFootingTypeEnum.USERDEFINED = "USERDEFINED";
IfcFootingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcFurnitureTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcFurnitureTypeEnum.CHAIR = "CHAIR";
IfcFurnitureTypeEnum.TABLE = "TABLE";
IfcFurnitureTypeEnum.DESK = "DESK";
IfcFurnitureTypeEnum.BED = "BED";
IfcFurnitureTypeEnum.FILECABINET = "FILECABINET";
IfcFurnitureTypeEnum.SHELF = "SHELF";
IfcFurnitureTypeEnum.SOFA = "SOFA";
IfcFurnitureTypeEnum.USERDEFINED = "USERDEFINED";
IfcFurnitureTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcGeographicElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcGeographicElementTypeEnum.TERRAIN = "TERRAIN";
IfcGeographicElementTypeEnum.SOIL_BORING_POINT = "SOIL_BORING_POINT";
IfcGeographicElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcGeographicElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcGeometricProjectionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcGeometricProjectionEnum.GRAPH_VIEW = "GRAPH_VIEW";
IfcGeometricProjectionEnum.SKETCH_VIEW = "SKETCH_VIEW";
IfcGeometricProjectionEnum.MODEL_VIEW = "MODEL_VIEW";
IfcGeometricProjectionEnum.PLAN_VIEW = "PLAN_VIEW";
IfcGeometricProjectionEnum.REFLECTED_PLAN_VIEW = "REFLECTED_PLAN_VIEW";
IfcGeometricProjectionEnum.SECTION_VIEW = "SECTION_VIEW";
IfcGeometricProjectionEnum.ELEVATION_VIEW = "ELEVATION_VIEW";
IfcGeometricProjectionEnum.USERDEFINED = "USERDEFINED";
IfcGeometricProjectionEnum.NOTDEFINED = "NOTDEFINED";
var IfcGlobalOrLocalEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcGlobalOrLocalEnum.GLOBAL_COORDS = "GLOBAL_COORDS";
IfcGlobalOrLocalEnum.LOCAL_COORDS = "LOCAL_COORDS";
var IfcGridTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcGridTypeEnum.RECTANGULAR = "RECTANGULAR";
IfcGridTypeEnum.RADIAL = "RADIAL";
IfcGridTypeEnum.TRIANGULAR = "TRIANGULAR";
IfcGridTypeEnum.IRREGULAR = "IRREGULAR";
IfcGridTypeEnum.USERDEFINED = "USERDEFINED";
IfcGridTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcHeatExchangerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcHeatExchangerTypeEnum.PLATE = "PLATE";
IfcHeatExchangerTypeEnum.SHELLANDTUBE = "SHELLANDTUBE";
IfcHeatExchangerTypeEnum.USERDEFINED = "USERDEFINED";
IfcHeatExchangerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcHumidifierTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcHumidifierTypeEnum.STEAMINJECTION = "STEAMINJECTION";
IfcHumidifierTypeEnum.ADIABATICAIRWASHER = "ADIABATICAIRWASHER";
IfcHumidifierTypeEnum.ADIABATICPAN = "ADIABATICPAN";
IfcHumidifierTypeEnum.ADIABATICWETTEDELEMENT = "ADIABATICWETTEDELEMENT";
IfcHumidifierTypeEnum.ADIABATICATOMIZING = "ADIABATICATOMIZING";
IfcHumidifierTypeEnum.ADIABATICULTRASONIC = "ADIABATICULTRASONIC";
IfcHumidifierTypeEnum.ADIABATICRIGIDMEDIA = "ADIABATICRIGIDMEDIA";
IfcHumidifierTypeEnum.ADIABATICCOMPRESSEDAIRNOZZLE = "ADIABATICCOMPRESSEDAIRNOZZLE";
IfcHumidifierTypeEnum.ASSISTEDELECTRIC = "ASSISTEDELECTRIC";
IfcHumidifierTypeEnum.ASSISTEDNATURALGAS = "ASSISTEDNATURALGAS";
IfcHumidifierTypeEnum.ASSISTEDPROPANE = "ASSISTEDPROPANE";
IfcHumidifierTypeEnum.ASSISTEDBUTANE = "ASSISTEDBUTANE";
IfcHumidifierTypeEnum.ASSISTEDSTEAM = "ASSISTEDSTEAM";
IfcHumidifierTypeEnum.USERDEFINED = "USERDEFINED";
IfcHumidifierTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcInterceptorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcInterceptorTypeEnum.CYCLONIC = "CYCLONIC";
IfcInterceptorTypeEnum.GREASE = "GREASE";
IfcInterceptorTypeEnum.OIL = "OIL";
IfcInterceptorTypeEnum.PETROL = "PETROL";
IfcInterceptorTypeEnum.USERDEFINED = "USERDEFINED";
IfcInterceptorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcInternalOrExternalEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcInternalOrExternalEnum.INTERNAL = "INTERNAL";
IfcInternalOrExternalEnum.EXTERNAL = "EXTERNAL";
IfcInternalOrExternalEnum.EXTERNAL_EARTH = "EXTERNAL_EARTH";
IfcInternalOrExternalEnum.EXTERNAL_WATER = "EXTERNAL_WATER";
IfcInternalOrExternalEnum.EXTERNAL_FIRE = "EXTERNAL_FIRE";
IfcInternalOrExternalEnum.NOTDEFINED = "NOTDEFINED";
var IfcInventoryTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcInventoryTypeEnum.ASSETINVENTORY = "ASSETINVENTORY";
IfcInventoryTypeEnum.SPACEINVENTORY = "SPACEINVENTORY";
IfcInventoryTypeEnum.FURNITUREINVENTORY = "FURNITUREINVENTORY";
IfcInventoryTypeEnum.USERDEFINED = "USERDEFINED";
IfcInventoryTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcJunctionBoxTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcJunctionBoxTypeEnum.DATA = "DATA";
IfcJunctionBoxTypeEnum.POWER = "POWER";
IfcJunctionBoxTypeEnum.USERDEFINED = "USERDEFINED";
IfcJunctionBoxTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcKnotType = class {
  constructor(v) {
    this.value = v;
  }
};
IfcKnotType.UNIFORM_KNOTS = "UNIFORM_KNOTS";
IfcKnotType.QUASI_UNIFORM_KNOTS = "QUASI_UNIFORM_KNOTS";
IfcKnotType.PIECEWISE_BEZIER_KNOTS = "PIECEWISE_BEZIER_KNOTS";
IfcKnotType.UNSPECIFIED = "UNSPECIFIED";
var IfcLaborResourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLaborResourceTypeEnum.ADMINISTRATION = "ADMINISTRATION";
IfcLaborResourceTypeEnum.CARPENTRY = "CARPENTRY";
IfcLaborResourceTypeEnum.CLEANING = "CLEANING";
IfcLaborResourceTypeEnum.CONCRETE = "CONCRETE";
IfcLaborResourceTypeEnum.DRYWALL = "DRYWALL";
IfcLaborResourceTypeEnum.ELECTRIC = "ELECTRIC";
IfcLaborResourceTypeEnum.FINISHING = "FINISHING";
IfcLaborResourceTypeEnum.FLOORING = "FLOORING";
IfcLaborResourceTypeEnum.GENERAL = "GENERAL";
IfcLaborResourceTypeEnum.HVAC = "HVAC";
IfcLaborResourceTypeEnum.LANDSCAPING = "LANDSCAPING";
IfcLaborResourceTypeEnum.MASONRY = "MASONRY";
IfcLaborResourceTypeEnum.PAINTING = "PAINTING";
IfcLaborResourceTypeEnum.PAVING = "PAVING";
IfcLaborResourceTypeEnum.PLUMBING = "PLUMBING";
IfcLaborResourceTypeEnum.ROOFING = "ROOFING";
IfcLaborResourceTypeEnum.SITEGRADING = "SITEGRADING";
IfcLaborResourceTypeEnum.STEELWORK = "STEELWORK";
IfcLaborResourceTypeEnum.SURVEYING = "SURVEYING";
IfcLaborResourceTypeEnum.USERDEFINED = "USERDEFINED";
IfcLaborResourceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcLampTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLampTypeEnum.COMPACTFLUORESCENT = "COMPACTFLUORESCENT";
IfcLampTypeEnum.FLUORESCENT = "FLUORESCENT";
IfcLampTypeEnum.HALOGEN = "HALOGEN";
IfcLampTypeEnum.HIGHPRESSUREMERCURY = "HIGHPRESSUREMERCURY";
IfcLampTypeEnum.HIGHPRESSURESODIUM = "HIGHPRESSURESODIUM";
IfcLampTypeEnum.LED = "LED";
IfcLampTypeEnum.METALHALIDE = "METALHALIDE";
IfcLampTypeEnum.OLED = "OLED";
IfcLampTypeEnum.TUNGSTENFILAMENT = "TUNGSTENFILAMENT";
IfcLampTypeEnum.USERDEFINED = "USERDEFINED";
IfcLampTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcLayerSetDirectionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLayerSetDirectionEnum.AXIS1 = "AXIS1";
IfcLayerSetDirectionEnum.AXIS2 = "AXIS2";
IfcLayerSetDirectionEnum.AXIS3 = "AXIS3";
var IfcLightDistributionCurveEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLightDistributionCurveEnum.TYPE_A = "TYPE_A";
IfcLightDistributionCurveEnum.TYPE_B = "TYPE_B";
IfcLightDistributionCurveEnum.TYPE_C = "TYPE_C";
IfcLightDistributionCurveEnum.NOTDEFINED = "NOTDEFINED";
var IfcLightEmissionSourceEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLightEmissionSourceEnum.COMPACTFLUORESCENT = "COMPACTFLUORESCENT";
IfcLightEmissionSourceEnum.FLUORESCENT = "FLUORESCENT";
IfcLightEmissionSourceEnum.HIGHPRESSUREMERCURY = "HIGHPRESSUREMERCURY";
IfcLightEmissionSourceEnum.HIGHPRESSURESODIUM = "HIGHPRESSURESODIUM";
IfcLightEmissionSourceEnum.LIGHTEMITTINGDIODE = "LIGHTEMITTINGDIODE";
IfcLightEmissionSourceEnum.LOWPRESSURESODIUM = "LOWPRESSURESODIUM";
IfcLightEmissionSourceEnum.LOWVOLTAGEHALOGEN = "LOWVOLTAGEHALOGEN";
IfcLightEmissionSourceEnum.MAINVOLTAGEHALOGEN = "MAINVOLTAGEHALOGEN";
IfcLightEmissionSourceEnum.METALHALIDE = "METALHALIDE";
IfcLightEmissionSourceEnum.TUNGSTENFILAMENT = "TUNGSTENFILAMENT";
IfcLightEmissionSourceEnum.NOTDEFINED = "NOTDEFINED";
var IfcLightFixtureTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLightFixtureTypeEnum.POINTSOURCE = "POINTSOURCE";
IfcLightFixtureTypeEnum.DIRECTIONSOURCE = "DIRECTIONSOURCE";
IfcLightFixtureTypeEnum.SECURITYLIGHTING = "SECURITYLIGHTING";
IfcLightFixtureTypeEnum.USERDEFINED = "USERDEFINED";
IfcLightFixtureTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcLoadGroupTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLoadGroupTypeEnum.LOAD_GROUP = "LOAD_GROUP";
IfcLoadGroupTypeEnum.LOAD_CASE = "LOAD_CASE";
IfcLoadGroupTypeEnum.LOAD_COMBINATION = "LOAD_COMBINATION";
IfcLoadGroupTypeEnum.USERDEFINED = "USERDEFINED";
IfcLoadGroupTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcLogicalOperatorEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcLogicalOperatorEnum.LOGICALAND = "LOGICALAND";
IfcLogicalOperatorEnum.LOGICALOR = "LOGICALOR";
IfcLogicalOperatorEnum.LOGICALXOR = "LOGICALXOR";
IfcLogicalOperatorEnum.LOGICALNOTAND = "LOGICALNOTAND";
IfcLogicalOperatorEnum.LOGICALNOTOR = "LOGICALNOTOR";
var IfcMechanicalFastenerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcMechanicalFastenerTypeEnum.ANCHORBOLT = "ANCHORBOLT";
IfcMechanicalFastenerTypeEnum.BOLT = "BOLT";
IfcMechanicalFastenerTypeEnum.DOWEL = "DOWEL";
IfcMechanicalFastenerTypeEnum.NAIL = "NAIL";
IfcMechanicalFastenerTypeEnum.NAILPLATE = "NAILPLATE";
IfcMechanicalFastenerTypeEnum.RIVET = "RIVET";
IfcMechanicalFastenerTypeEnum.SCREW = "SCREW";
IfcMechanicalFastenerTypeEnum.SHEARCONNECTOR = "SHEARCONNECTOR";
IfcMechanicalFastenerTypeEnum.STAPLE = "STAPLE";
IfcMechanicalFastenerTypeEnum.STUDSHEARCONNECTOR = "STUDSHEARCONNECTOR";
IfcMechanicalFastenerTypeEnum.COUPLER = "COUPLER";
IfcMechanicalFastenerTypeEnum.USERDEFINED = "USERDEFINED";
IfcMechanicalFastenerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcMedicalDeviceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcMedicalDeviceTypeEnum.AIRSTATION = "AIRSTATION";
IfcMedicalDeviceTypeEnum.FEEDAIRUNIT = "FEEDAIRUNIT";
IfcMedicalDeviceTypeEnum.OXYGENGENERATOR = "OXYGENGENERATOR";
IfcMedicalDeviceTypeEnum.OXYGENPLANT = "OXYGENPLANT";
IfcMedicalDeviceTypeEnum.VACUUMSTATION = "VACUUMSTATION";
IfcMedicalDeviceTypeEnum.USERDEFINED = "USERDEFINED";
IfcMedicalDeviceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcMemberTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcMemberTypeEnum.BRACE = "BRACE";
IfcMemberTypeEnum.CHORD = "CHORD";
IfcMemberTypeEnum.COLLAR = "COLLAR";
IfcMemberTypeEnum.MEMBER = "MEMBER";
IfcMemberTypeEnum.MULLION = "MULLION";
IfcMemberTypeEnum.PLATE = "PLATE";
IfcMemberTypeEnum.POST = "POST";
IfcMemberTypeEnum.PURLIN = "PURLIN";
IfcMemberTypeEnum.RAFTER = "RAFTER";
IfcMemberTypeEnum.STRINGER = "STRINGER";
IfcMemberTypeEnum.STRUT = "STRUT";
IfcMemberTypeEnum.STUD = "STUD";
IfcMemberTypeEnum.STIFFENING_RIB = "STIFFENING_RIB";
IfcMemberTypeEnum.ARCH_SEGMENT = "ARCH_SEGMENT";
IfcMemberTypeEnum.SUSPENSION_CABLE = "SUSPENSION_CABLE";
IfcMemberTypeEnum.SUSPENDER = "SUSPENDER";
IfcMemberTypeEnum.STAY_CABLE = "STAY_CABLE";
IfcMemberTypeEnum.USERDEFINED = "USERDEFINED";
IfcMemberTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcMotorConnectionTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcMotorConnectionTypeEnum.BELTDRIVE = "BELTDRIVE";
IfcMotorConnectionTypeEnum.COUPLING = "COUPLING";
IfcMotorConnectionTypeEnum.DIRECTDRIVE = "DIRECTDRIVE";
IfcMotorConnectionTypeEnum.USERDEFINED = "USERDEFINED";
IfcMotorConnectionTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcNullStyle = class {
  constructor(v) {
    this.value = v;
  }
};
IfcNullStyle.NULL = "NULL";
var IfcObjectTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcObjectTypeEnum.PRODUCT = "PRODUCT";
IfcObjectTypeEnum.PROCESS = "PROCESS";
IfcObjectTypeEnum.CONTROL = "CONTROL";
IfcObjectTypeEnum.RESOURCE = "RESOURCE";
IfcObjectTypeEnum.ACTOR = "ACTOR";
IfcObjectTypeEnum.GROUP = "GROUP";
IfcObjectTypeEnum.PROJECT = "PROJECT";
IfcObjectTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcObjectiveEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcObjectiveEnum.CODECOMPLIANCE = "CODECOMPLIANCE";
IfcObjectiveEnum.CODEWAIVER = "CODEWAIVER";
IfcObjectiveEnum.DESIGNINTENT = "DESIGNINTENT";
IfcObjectiveEnum.EXTERNAL = "EXTERNAL";
IfcObjectiveEnum.HEALTHANDSAFETY = "HEALTHANDSAFETY";
IfcObjectiveEnum.MERGECONFLICT = "MERGECONFLICT";
IfcObjectiveEnum.MODELVIEW = "MODELVIEW";
IfcObjectiveEnum.PARAMETER = "PARAMETER";
IfcObjectiveEnum.REQUIREMENT = "REQUIREMENT";
IfcObjectiveEnum.SPECIFICATION = "SPECIFICATION";
IfcObjectiveEnum.TRIGGERCONDITION = "TRIGGERCONDITION";
IfcObjectiveEnum.USERDEFINED = "USERDEFINED";
IfcObjectiveEnum.NOTDEFINED = "NOTDEFINED";
var IfcOccupantTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcOccupantTypeEnum.ASSIGNEE = "ASSIGNEE";
IfcOccupantTypeEnum.ASSIGNOR = "ASSIGNOR";
IfcOccupantTypeEnum.LESSEE = "LESSEE";
IfcOccupantTypeEnum.LESSOR = "LESSOR";
IfcOccupantTypeEnum.LETTINGAGENT = "LETTINGAGENT";
IfcOccupantTypeEnum.OWNER = "OWNER";
IfcOccupantTypeEnum.TENANT = "TENANT";
IfcOccupantTypeEnum.USERDEFINED = "USERDEFINED";
IfcOccupantTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcOpeningElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcOpeningElementTypeEnum.OPENING = "OPENING";
IfcOpeningElementTypeEnum.RECESS = "RECESS";
IfcOpeningElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcOpeningElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcOutletTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcOutletTypeEnum.AUDIOVISUALOUTLET = "AUDIOVISUALOUTLET";
IfcOutletTypeEnum.COMMUNICATIONSOUTLET = "COMMUNICATIONSOUTLET";
IfcOutletTypeEnum.POWEROUTLET = "POWEROUTLET";
IfcOutletTypeEnum.DATAOUTLET = "DATAOUTLET";
IfcOutletTypeEnum.TELEPHONEOUTLET = "TELEPHONEOUTLET";
IfcOutletTypeEnum.USERDEFINED = "USERDEFINED";
IfcOutletTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPerformanceHistoryTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPerformanceHistoryTypeEnum.USERDEFINED = "USERDEFINED";
IfcPerformanceHistoryTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPermeableCoveringOperationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPermeableCoveringOperationEnum.GRILL = "GRILL";
IfcPermeableCoveringOperationEnum.LOUVER = "LOUVER";
IfcPermeableCoveringOperationEnum.SCREEN = "SCREEN";
IfcPermeableCoveringOperationEnum.USERDEFINED = "USERDEFINED";
IfcPermeableCoveringOperationEnum.NOTDEFINED = "NOTDEFINED";
var IfcPermitTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPermitTypeEnum.ACCESS = "ACCESS";
IfcPermitTypeEnum.BUILDING = "BUILDING";
IfcPermitTypeEnum.WORK = "WORK";
IfcPermitTypeEnum.USERDEFINED = "USERDEFINED";
IfcPermitTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPhysicalOrVirtualEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPhysicalOrVirtualEnum.PHYSICAL = "PHYSICAL";
IfcPhysicalOrVirtualEnum.VIRTUAL = "VIRTUAL";
IfcPhysicalOrVirtualEnum.NOTDEFINED = "NOTDEFINED";
var IfcPileConstructionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPileConstructionEnum.CAST_IN_PLACE = "CAST_IN_PLACE";
IfcPileConstructionEnum.COMPOSITE = "COMPOSITE";
IfcPileConstructionEnum.PRECAST_CONCRETE = "PRECAST_CONCRETE";
IfcPileConstructionEnum.PREFAB_STEEL = "PREFAB_STEEL";
IfcPileConstructionEnum.USERDEFINED = "USERDEFINED";
IfcPileConstructionEnum.NOTDEFINED = "NOTDEFINED";
var IfcPileTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPileTypeEnum.BORED = "BORED";
IfcPileTypeEnum.DRIVEN = "DRIVEN";
IfcPileTypeEnum.JETGROUTING = "JETGROUTING";
IfcPileTypeEnum.COHESION = "COHESION";
IfcPileTypeEnum.FRICTION = "FRICTION";
IfcPileTypeEnum.SUPPORT = "SUPPORT";
IfcPileTypeEnum.USERDEFINED = "USERDEFINED";
IfcPileTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPipeFittingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPipeFittingTypeEnum.BEND = "BEND";
IfcPipeFittingTypeEnum.CONNECTOR = "CONNECTOR";
IfcPipeFittingTypeEnum.ENTRY = "ENTRY";
IfcPipeFittingTypeEnum.EXIT = "EXIT";
IfcPipeFittingTypeEnum.JUNCTION = "JUNCTION";
IfcPipeFittingTypeEnum.OBSTRUCTION = "OBSTRUCTION";
IfcPipeFittingTypeEnum.TRANSITION = "TRANSITION";
IfcPipeFittingTypeEnum.USERDEFINED = "USERDEFINED";
IfcPipeFittingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPipeSegmentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPipeSegmentTypeEnum.CULVERT = "CULVERT";
IfcPipeSegmentTypeEnum.FLEXIBLESEGMENT = "FLEXIBLESEGMENT";
IfcPipeSegmentTypeEnum.RIGIDSEGMENT = "RIGIDSEGMENT";
IfcPipeSegmentTypeEnum.GUTTER = "GUTTER";
IfcPipeSegmentTypeEnum.SPOOL = "SPOOL";
IfcPipeSegmentTypeEnum.USERDEFINED = "USERDEFINED";
IfcPipeSegmentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPlateTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPlateTypeEnum.CURTAIN_PANEL = "CURTAIN_PANEL";
IfcPlateTypeEnum.SHEET = "SHEET";
IfcPlateTypeEnum.FLANGE_PLATE = "FLANGE_PLATE";
IfcPlateTypeEnum.WEB_PLATE = "WEB_PLATE";
IfcPlateTypeEnum.STIFFENER_PLATE = "STIFFENER_PLATE";
IfcPlateTypeEnum.GUSSET_PLATE = "GUSSET_PLATE";
IfcPlateTypeEnum.COVER_PLATE = "COVER_PLATE";
IfcPlateTypeEnum.SPLICE_PLATE = "SPLICE_PLATE";
IfcPlateTypeEnum.BASE_PLATE = "BASE_PLATE";
IfcPlateTypeEnum.USERDEFINED = "USERDEFINED";
IfcPlateTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPreferredSurfaceCurveRepresentation = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPreferredSurfaceCurveRepresentation.CURVE3D = "CURVE3D";
IfcPreferredSurfaceCurveRepresentation.PCURVE_S1 = "PCURVE_S1";
IfcPreferredSurfaceCurveRepresentation.PCURVE_S2 = "PCURVE_S2";
var IfcProcedureTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProcedureTypeEnum.ADVICE_CAUTION = "ADVICE_CAUTION";
IfcProcedureTypeEnum.ADVICE_NOTE = "ADVICE_NOTE";
IfcProcedureTypeEnum.ADVICE_WARNING = "ADVICE_WARNING";
IfcProcedureTypeEnum.CALIBRATION = "CALIBRATION";
IfcProcedureTypeEnum.DIAGNOSTIC = "DIAGNOSTIC";
IfcProcedureTypeEnum.SHUTDOWN = "SHUTDOWN";
IfcProcedureTypeEnum.STARTUP = "STARTUP";
IfcProcedureTypeEnum.USERDEFINED = "USERDEFINED";
IfcProcedureTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcProfileTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProfileTypeEnum.CURVE = "CURVE";
IfcProfileTypeEnum.AREA = "AREA";
var IfcProjectOrderTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProjectOrderTypeEnum.CHANGEORDER = "CHANGEORDER";
IfcProjectOrderTypeEnum.MAINTENANCEWORKORDER = "MAINTENANCEWORKORDER";
IfcProjectOrderTypeEnum.MOVEORDER = "MOVEORDER";
IfcProjectOrderTypeEnum.PURCHASEORDER = "PURCHASEORDER";
IfcProjectOrderTypeEnum.WORKORDER = "WORKORDER";
IfcProjectOrderTypeEnum.USERDEFINED = "USERDEFINED";
IfcProjectOrderTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcProjectedOrTrueLengthEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProjectedOrTrueLengthEnum.PROJECTED_LENGTH = "PROJECTED_LENGTH";
IfcProjectedOrTrueLengthEnum.TRUE_LENGTH = "TRUE_LENGTH";
var IfcProjectionElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProjectionElementTypeEnum.BLISTER = "BLISTER";
IfcProjectionElementTypeEnum.DEVIATOR = "DEVIATOR";
IfcProjectionElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcProjectionElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPropertySetTemplateTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPropertySetTemplateTypeEnum.PSET_TYPEDRIVENONLY = "PSET_TYPEDRIVENONLY";
IfcPropertySetTemplateTypeEnum.PSET_TYPEDRIVENOVERRIDE = "PSET_TYPEDRIVENOVERRIDE";
IfcPropertySetTemplateTypeEnum.PSET_OCCURRENCEDRIVEN = "PSET_OCCURRENCEDRIVEN";
IfcPropertySetTemplateTypeEnum.PSET_PERFORMANCEDRIVEN = "PSET_PERFORMANCEDRIVEN";
IfcPropertySetTemplateTypeEnum.QTO_TYPEDRIVENONLY = "QTO_TYPEDRIVENONLY";
IfcPropertySetTemplateTypeEnum.QTO_TYPEDRIVENOVERRIDE = "QTO_TYPEDRIVENOVERRIDE";
IfcPropertySetTemplateTypeEnum.QTO_OCCURRENCEDRIVEN = "QTO_OCCURRENCEDRIVEN";
IfcPropertySetTemplateTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcProtectiveDeviceTrippingUnitTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProtectiveDeviceTrippingUnitTypeEnum.ELECTRONIC = "ELECTRONIC";
IfcProtectiveDeviceTrippingUnitTypeEnum.ELECTROMAGNETIC = "ELECTROMAGNETIC";
IfcProtectiveDeviceTrippingUnitTypeEnum.RESIDUALCURRENT = "RESIDUALCURRENT";
IfcProtectiveDeviceTrippingUnitTypeEnum.THERMAL = "THERMAL";
IfcProtectiveDeviceTrippingUnitTypeEnum.USERDEFINED = "USERDEFINED";
IfcProtectiveDeviceTrippingUnitTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcProtectiveDeviceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcProtectiveDeviceTypeEnum.CIRCUITBREAKER = "CIRCUITBREAKER";
IfcProtectiveDeviceTypeEnum.EARTHLEAKAGECIRCUITBREAKER = "EARTHLEAKAGECIRCUITBREAKER";
IfcProtectiveDeviceTypeEnum.EARTHINGSWITCH = "EARTHINGSWITCH";
IfcProtectiveDeviceTypeEnum.FUSEDISCONNECTOR = "FUSEDISCONNECTOR";
IfcProtectiveDeviceTypeEnum.RESIDUALCURRENTCIRCUITBREAKER = "RESIDUALCURRENTCIRCUITBREAKER";
IfcProtectiveDeviceTypeEnum.RESIDUALCURRENTSWITCH = "RESIDUALCURRENTSWITCH";
IfcProtectiveDeviceTypeEnum.VARISTOR = "VARISTOR";
IfcProtectiveDeviceTypeEnum.USERDEFINED = "USERDEFINED";
IfcProtectiveDeviceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcPumpTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcPumpTypeEnum.CIRCULATOR = "CIRCULATOR";
IfcPumpTypeEnum.ENDSUCTION = "ENDSUCTION";
IfcPumpTypeEnum.SPLITCASE = "SPLITCASE";
IfcPumpTypeEnum.SUBMERSIBLEPUMP = "SUBMERSIBLEPUMP";
IfcPumpTypeEnum.SUMPPUMP = "SUMPPUMP";
IfcPumpTypeEnum.VERTICALINLINE = "VERTICALINLINE";
IfcPumpTypeEnum.VERTICALTURBINE = "VERTICALTURBINE";
IfcPumpTypeEnum.USERDEFINED = "USERDEFINED";
IfcPumpTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcRailingTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcRailingTypeEnum.HANDRAIL = "HANDRAIL";
IfcRailingTypeEnum.GUARDRAIL = "GUARDRAIL";
IfcRailingTypeEnum.BALUSTRADE = "BALUSTRADE";
IfcRailingTypeEnum.USERDEFINED = "USERDEFINED";
IfcRailingTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcRampFlightTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcRampFlightTypeEnum.STRAIGHT = "STRAIGHT";
IfcRampFlightTypeEnum.SPIRAL = "SPIRAL";
IfcRampFlightTypeEnum.USERDEFINED = "USERDEFINED";
IfcRampFlightTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcRampTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcRampTypeEnum.STRAIGHT_RUN_RAMP = "STRAIGHT_RUN_RAMP";
IfcRampTypeEnum.TWO_STRAIGHT_RUN_RAMP = "TWO_STRAIGHT_RUN_RAMP";
IfcRampTypeEnum.QUARTER_TURN_RAMP = "QUARTER_TURN_RAMP";
IfcRampTypeEnum.TWO_QUARTER_TURN_RAMP = "TWO_QUARTER_TURN_RAMP";
IfcRampTypeEnum.HALF_TURN_RAMP = "HALF_TURN_RAMP";
IfcRampTypeEnum.SPIRAL_RAMP = "SPIRAL_RAMP";
IfcRampTypeEnum.USERDEFINED = "USERDEFINED";
IfcRampTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcRecurrenceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcRecurrenceTypeEnum.DAILY = "DAILY";
IfcRecurrenceTypeEnum.WEEKLY = "WEEKLY";
IfcRecurrenceTypeEnum.MONTHLY_BY_DAY_OF_MONTH = "MONTHLY_BY_DAY_OF_MONTH";
IfcRecurrenceTypeEnum.MONTHLY_BY_POSITION = "MONTHLY_BY_POSITION";
IfcRecurrenceTypeEnum.BY_DAY_COUNT = "BY_DAY_COUNT";
IfcRecurrenceTypeEnum.BY_WEEKDAY_COUNT = "BY_WEEKDAY_COUNT";
IfcRecurrenceTypeEnum.YEARLY_BY_DAY_OF_MONTH = "YEARLY_BY_DAY_OF_MONTH";
IfcRecurrenceTypeEnum.YEARLY_BY_POSITION = "YEARLY_BY_POSITION";
var IfcReferentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcReferentTypeEnum.KILOPOINT = "KILOPOINT";
IfcReferentTypeEnum.MILEPOINT = "MILEPOINT";
IfcReferentTypeEnum.STATION = "STATION";
IfcReferentTypeEnum.USERDEFINED = "USERDEFINED";
IfcReferentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcReflectanceMethodEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcReflectanceMethodEnum.BLINN = "BLINN";
IfcReflectanceMethodEnum.FLAT = "FLAT";
IfcReflectanceMethodEnum.GLASS = "GLASS";
IfcReflectanceMethodEnum.MATT = "MATT";
IfcReflectanceMethodEnum.METAL = "METAL";
IfcReflectanceMethodEnum.MIRROR = "MIRROR";
IfcReflectanceMethodEnum.PHONG = "PHONG";
IfcReflectanceMethodEnum.PLASTIC = "PLASTIC";
IfcReflectanceMethodEnum.STRAUSS = "STRAUSS";
IfcReflectanceMethodEnum.NOTDEFINED = "NOTDEFINED";
var IfcReinforcingBarRoleEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcReinforcingBarRoleEnum.MAIN = "MAIN";
IfcReinforcingBarRoleEnum.SHEAR = "SHEAR";
IfcReinforcingBarRoleEnum.LIGATURE = "LIGATURE";
IfcReinforcingBarRoleEnum.STUD = "STUD";
IfcReinforcingBarRoleEnum.PUNCHING = "PUNCHING";
IfcReinforcingBarRoleEnum.EDGE = "EDGE";
IfcReinforcingBarRoleEnum.RING = "RING";
IfcReinforcingBarRoleEnum.ANCHORING = "ANCHORING";
IfcReinforcingBarRoleEnum.USERDEFINED = "USERDEFINED";
IfcReinforcingBarRoleEnum.NOTDEFINED = "NOTDEFINED";
var IfcReinforcingBarSurfaceEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcReinforcingBarSurfaceEnum.PLAIN = "PLAIN";
IfcReinforcingBarSurfaceEnum.TEXTURED = "TEXTURED";
var IfcReinforcingBarTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcReinforcingBarTypeEnum.ANCHORING = "ANCHORING";
IfcReinforcingBarTypeEnum.EDGE = "EDGE";
IfcReinforcingBarTypeEnum.LIGATURE = "LIGATURE";
IfcReinforcingBarTypeEnum.MAIN = "MAIN";
IfcReinforcingBarTypeEnum.PUNCHING = "PUNCHING";
IfcReinforcingBarTypeEnum.RING = "RING";
IfcReinforcingBarTypeEnum.SHEAR = "SHEAR";
IfcReinforcingBarTypeEnum.STUD = "STUD";
IfcReinforcingBarTypeEnum.SPACEBAR = "SPACEBAR";
IfcReinforcingBarTypeEnum.USERDEFINED = "USERDEFINED";
IfcReinforcingBarTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcReinforcingMeshTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcReinforcingMeshTypeEnum.USERDEFINED = "USERDEFINED";
IfcReinforcingMeshTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcRoleEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcRoleEnum.SUPPLIER = "SUPPLIER";
IfcRoleEnum.MANUFACTURER = "MANUFACTURER";
IfcRoleEnum.CONTRACTOR = "CONTRACTOR";
IfcRoleEnum.SUBCONTRACTOR = "SUBCONTRACTOR";
IfcRoleEnum.ARCHITECT = "ARCHITECT";
IfcRoleEnum.STRUCTURALENGINEER = "STRUCTURALENGINEER";
IfcRoleEnum.COSTENGINEER = "COSTENGINEER";
IfcRoleEnum.CLIENT = "CLIENT";
IfcRoleEnum.BUILDINGOWNER = "BUILDINGOWNER";
IfcRoleEnum.BUILDINGOPERATOR = "BUILDINGOPERATOR";
IfcRoleEnum.MECHANICALENGINEER = "MECHANICALENGINEER";
IfcRoleEnum.ELECTRICALENGINEER = "ELECTRICALENGINEER";
IfcRoleEnum.PROJECTMANAGER = "PROJECTMANAGER";
IfcRoleEnum.FACILITIESMANAGER = "FACILITIESMANAGER";
IfcRoleEnum.CIVILENGINEER = "CIVILENGINEER";
IfcRoleEnum.COMMISSIONINGENGINEER = "COMMISSIONINGENGINEER";
IfcRoleEnum.ENGINEER = "ENGINEER";
IfcRoleEnum.OWNER = "OWNER";
IfcRoleEnum.CONSULTANT = "CONSULTANT";
IfcRoleEnum.CONSTRUCTIONMANAGER = "CONSTRUCTIONMANAGER";
IfcRoleEnum.FIELDCONSTRUCTIONMANAGER = "FIELDCONSTRUCTIONMANAGER";
IfcRoleEnum.RESELLER = "RESELLER";
IfcRoleEnum.USERDEFINED = "USERDEFINED";
var IfcRoofTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcRoofTypeEnum.FLAT_ROOF = "FLAT_ROOF";
IfcRoofTypeEnum.SHED_ROOF = "SHED_ROOF";
IfcRoofTypeEnum.GABLE_ROOF = "GABLE_ROOF";
IfcRoofTypeEnum.HIP_ROOF = "HIP_ROOF";
IfcRoofTypeEnum.HIPPED_GABLE_ROOF = "HIPPED_GABLE_ROOF";
IfcRoofTypeEnum.GAMBREL_ROOF = "GAMBREL_ROOF";
IfcRoofTypeEnum.MANSARD_ROOF = "MANSARD_ROOF";
IfcRoofTypeEnum.BARREL_ROOF = "BARREL_ROOF";
IfcRoofTypeEnum.RAINBOW_ROOF = "RAINBOW_ROOF";
IfcRoofTypeEnum.BUTTERFLY_ROOF = "BUTTERFLY_ROOF";
IfcRoofTypeEnum.PAVILION_ROOF = "PAVILION_ROOF";
IfcRoofTypeEnum.DOME_ROOF = "DOME_ROOF";
IfcRoofTypeEnum.FREEFORM = "FREEFORM";
IfcRoofTypeEnum.USERDEFINED = "USERDEFINED";
IfcRoofTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSIPrefix = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSIPrefix.EXA = "EXA";
IfcSIPrefix.PETA = "PETA";
IfcSIPrefix.TERA = "TERA";
IfcSIPrefix.GIGA = "GIGA";
IfcSIPrefix.MEGA = "MEGA";
IfcSIPrefix.KILO = "KILO";
IfcSIPrefix.HECTO = "HECTO";
IfcSIPrefix.DECA = "DECA";
IfcSIPrefix.DECI = "DECI";
IfcSIPrefix.CENTI = "CENTI";
IfcSIPrefix.MILLI = "MILLI";
IfcSIPrefix.MICRO = "MICRO";
IfcSIPrefix.NANO = "NANO";
IfcSIPrefix.PICO = "PICO";
IfcSIPrefix.FEMTO = "FEMTO";
IfcSIPrefix.ATTO = "ATTO";
var IfcSIUnitName = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSIUnitName.AMPERE = "AMPERE";
IfcSIUnitName.BECQUEREL = "BECQUEREL";
IfcSIUnitName.CANDELA = "CANDELA";
IfcSIUnitName.COULOMB = "COULOMB";
IfcSIUnitName.CUBIC_METRE = "CUBIC_METRE";
IfcSIUnitName.DEGREE_CELSIUS = "DEGREE_CELSIUS";
IfcSIUnitName.FARAD = "FARAD";
IfcSIUnitName.GRAM = "GRAM";
IfcSIUnitName.GRAY = "GRAY";
IfcSIUnitName.HENRY = "HENRY";
IfcSIUnitName.HERTZ = "HERTZ";
IfcSIUnitName.JOULE = "JOULE";
IfcSIUnitName.KELVIN = "KELVIN";
IfcSIUnitName.LUMEN = "LUMEN";
IfcSIUnitName.LUX = "LUX";
IfcSIUnitName.METRE = "METRE";
IfcSIUnitName.MOLE = "MOLE";
IfcSIUnitName.NEWTON = "NEWTON";
IfcSIUnitName.OHM = "OHM";
IfcSIUnitName.PASCAL = "PASCAL";
IfcSIUnitName.RADIAN = "RADIAN";
IfcSIUnitName.SECOND = "SECOND";
IfcSIUnitName.SIEMENS = "SIEMENS";
IfcSIUnitName.SIEVERT = "SIEVERT";
IfcSIUnitName.SQUARE_METRE = "SQUARE_METRE";
IfcSIUnitName.STERADIAN = "STERADIAN";
IfcSIUnitName.TESLA = "TESLA";
IfcSIUnitName.VOLT = "VOLT";
IfcSIUnitName.WATT = "WATT";
IfcSIUnitName.WEBER = "WEBER";
var IfcSanitaryTerminalTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSanitaryTerminalTypeEnum.BATH = "BATH";
IfcSanitaryTerminalTypeEnum.BIDET = "BIDET";
IfcSanitaryTerminalTypeEnum.CISTERN = "CISTERN";
IfcSanitaryTerminalTypeEnum.SHOWER = "SHOWER";
IfcSanitaryTerminalTypeEnum.SINK = "SINK";
IfcSanitaryTerminalTypeEnum.SANITARYFOUNTAIN = "SANITARYFOUNTAIN";
IfcSanitaryTerminalTypeEnum.TOILETPAN = "TOILETPAN";
IfcSanitaryTerminalTypeEnum.URINAL = "URINAL";
IfcSanitaryTerminalTypeEnum.WASHHANDBASIN = "WASHHANDBASIN";
IfcSanitaryTerminalTypeEnum.WCSEAT = "WCSEAT";
IfcSanitaryTerminalTypeEnum.USERDEFINED = "USERDEFINED";
IfcSanitaryTerminalTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSectionTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSectionTypeEnum.UNIFORM = "UNIFORM";
IfcSectionTypeEnum.TAPERED = "TAPERED";
var IfcSensorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSensorTypeEnum.COSENSOR = "COSENSOR";
IfcSensorTypeEnum.CO2SENSOR = "CO2SENSOR";
IfcSensorTypeEnum.CONDUCTANCESENSOR = "CONDUCTANCESENSOR";
IfcSensorTypeEnum.CONTACTSENSOR = "CONTACTSENSOR";
IfcSensorTypeEnum.FIRESENSOR = "FIRESENSOR";
IfcSensorTypeEnum.FLOWSENSOR = "FLOWSENSOR";
IfcSensorTypeEnum.FROSTSENSOR = "FROSTSENSOR";
IfcSensorTypeEnum.GASSENSOR = "GASSENSOR";
IfcSensorTypeEnum.HEATSENSOR = "HEATSENSOR";
IfcSensorTypeEnum.HUMIDITYSENSOR = "HUMIDITYSENSOR";
IfcSensorTypeEnum.IDENTIFIERSENSOR = "IDENTIFIERSENSOR";
IfcSensorTypeEnum.IONCONCENTRATIONSENSOR = "IONCONCENTRATIONSENSOR";
IfcSensorTypeEnum.LEVELSENSOR = "LEVELSENSOR";
IfcSensorTypeEnum.LIGHTSENSOR = "LIGHTSENSOR";
IfcSensorTypeEnum.MOISTURESENSOR = "MOISTURESENSOR";
IfcSensorTypeEnum.MOVEMENTSENSOR = "MOVEMENTSENSOR";
IfcSensorTypeEnum.PHSENSOR = "PHSENSOR";
IfcSensorTypeEnum.PRESSURESENSOR = "PRESSURESENSOR";
IfcSensorTypeEnum.RADIATIONSENSOR = "RADIATIONSENSOR";
IfcSensorTypeEnum.RADIOACTIVITYSENSOR = "RADIOACTIVITYSENSOR";
IfcSensorTypeEnum.SMOKESENSOR = "SMOKESENSOR";
IfcSensorTypeEnum.SOUNDSENSOR = "SOUNDSENSOR";
IfcSensorTypeEnum.TEMPERATURESENSOR = "TEMPERATURESENSOR";
IfcSensorTypeEnum.WINDSENSOR = "WINDSENSOR";
IfcSensorTypeEnum.USERDEFINED = "USERDEFINED";
IfcSensorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSequenceEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSequenceEnum.START_START = "START_START";
IfcSequenceEnum.START_FINISH = "START_FINISH";
IfcSequenceEnum.FINISH_START = "FINISH_START";
IfcSequenceEnum.FINISH_FINISH = "FINISH_FINISH";
IfcSequenceEnum.USERDEFINED = "USERDEFINED";
IfcSequenceEnum.NOTDEFINED = "NOTDEFINED";
var IfcShadingDeviceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcShadingDeviceTypeEnum.JALOUSIE = "JALOUSIE";
IfcShadingDeviceTypeEnum.SHUTTER = "SHUTTER";
IfcShadingDeviceTypeEnum.AWNING = "AWNING";
IfcShadingDeviceTypeEnum.USERDEFINED = "USERDEFINED";
IfcShadingDeviceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSimplePropertyTemplateTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSimplePropertyTemplateTypeEnum.P_SINGLEVALUE = "P_SINGLEVALUE";
IfcSimplePropertyTemplateTypeEnum.P_ENUMERATEDVALUE = "P_ENUMERATEDVALUE";
IfcSimplePropertyTemplateTypeEnum.P_BOUNDEDVALUE = "P_BOUNDEDVALUE";
IfcSimplePropertyTemplateTypeEnum.P_LISTVALUE = "P_LISTVALUE";
IfcSimplePropertyTemplateTypeEnum.P_TABLEVALUE = "P_TABLEVALUE";
IfcSimplePropertyTemplateTypeEnum.P_REFERENCEVALUE = "P_REFERENCEVALUE";
IfcSimplePropertyTemplateTypeEnum.Q_LENGTH = "Q_LENGTH";
IfcSimplePropertyTemplateTypeEnum.Q_AREA = "Q_AREA";
IfcSimplePropertyTemplateTypeEnum.Q_VOLUME = "Q_VOLUME";
IfcSimplePropertyTemplateTypeEnum.Q_COUNT = "Q_COUNT";
IfcSimplePropertyTemplateTypeEnum.Q_WEIGHT = "Q_WEIGHT";
IfcSimplePropertyTemplateTypeEnum.Q_TIME = "Q_TIME";
var IfcSlabTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSlabTypeEnum.FLOOR = "FLOOR";
IfcSlabTypeEnum.ROOF = "ROOF";
IfcSlabTypeEnum.LANDING = "LANDING";
IfcSlabTypeEnum.BASESLAB = "BASESLAB";
IfcSlabTypeEnum.APPROACH_SLAB = "APPROACH_SLAB";
IfcSlabTypeEnum.PAVING = "PAVING";
IfcSlabTypeEnum.WEARING = "WEARING";
IfcSlabTypeEnum.SIDEWALK = "SIDEWALK";
IfcSlabTypeEnum.USERDEFINED = "USERDEFINED";
IfcSlabTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSolarDeviceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSolarDeviceTypeEnum.SOLARCOLLECTOR = "SOLARCOLLECTOR";
IfcSolarDeviceTypeEnum.SOLARPANEL = "SOLARPANEL";
IfcSolarDeviceTypeEnum.USERDEFINED = "USERDEFINED";
IfcSolarDeviceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSpaceHeaterTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSpaceHeaterTypeEnum.CONVECTOR = "CONVECTOR";
IfcSpaceHeaterTypeEnum.RADIATOR = "RADIATOR";
IfcSpaceHeaterTypeEnum.USERDEFINED = "USERDEFINED";
IfcSpaceHeaterTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSpaceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSpaceTypeEnum.SPACE = "SPACE";
IfcSpaceTypeEnum.PARKING = "PARKING";
IfcSpaceTypeEnum.GFA = "GFA";
IfcSpaceTypeEnum.INTERNAL = "INTERNAL";
IfcSpaceTypeEnum.EXTERNAL = "EXTERNAL";
IfcSpaceTypeEnum.USERDEFINED = "USERDEFINED";
IfcSpaceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSpatialZoneTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSpatialZoneTypeEnum.CONSTRUCTION = "CONSTRUCTION";
IfcSpatialZoneTypeEnum.FIRESAFETY = "FIRESAFETY";
IfcSpatialZoneTypeEnum.LIGHTING = "LIGHTING";
IfcSpatialZoneTypeEnum.OCCUPANCY = "OCCUPANCY";
IfcSpatialZoneTypeEnum.SECURITY = "SECURITY";
IfcSpatialZoneTypeEnum.THERMAL = "THERMAL";
IfcSpatialZoneTypeEnum.TRANSPORT = "TRANSPORT";
IfcSpatialZoneTypeEnum.VENTILATION = "VENTILATION";
IfcSpatialZoneTypeEnum.USERDEFINED = "USERDEFINED";
IfcSpatialZoneTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStackTerminalTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStackTerminalTypeEnum.BIRDCAGE = "BIRDCAGE";
IfcStackTerminalTypeEnum.COWL = "COWL";
IfcStackTerminalTypeEnum.RAINWATERHOPPER = "RAINWATERHOPPER";
IfcStackTerminalTypeEnum.USERDEFINED = "USERDEFINED";
IfcStackTerminalTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStairFlightTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStairFlightTypeEnum.STRAIGHT = "STRAIGHT";
IfcStairFlightTypeEnum.WINDER = "WINDER";
IfcStairFlightTypeEnum.SPIRAL = "SPIRAL";
IfcStairFlightTypeEnum.CURVED = "CURVED";
IfcStairFlightTypeEnum.FREEFORM = "FREEFORM";
IfcStairFlightTypeEnum.USERDEFINED = "USERDEFINED";
IfcStairFlightTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStairTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStairTypeEnum.STRAIGHT_RUN_STAIR = "STRAIGHT_RUN_STAIR";
IfcStairTypeEnum.TWO_STRAIGHT_RUN_STAIR = "TWO_STRAIGHT_RUN_STAIR";
IfcStairTypeEnum.QUARTER_WINDING_STAIR = "QUARTER_WINDING_STAIR";
IfcStairTypeEnum.QUARTER_TURN_STAIR = "QUARTER_TURN_STAIR";
IfcStairTypeEnum.HALF_WINDING_STAIR = "HALF_WINDING_STAIR";
IfcStairTypeEnum.HALF_TURN_STAIR = "HALF_TURN_STAIR";
IfcStairTypeEnum.TWO_QUARTER_WINDING_STAIR = "TWO_QUARTER_WINDING_STAIR";
IfcStairTypeEnum.TWO_QUARTER_TURN_STAIR = "TWO_QUARTER_TURN_STAIR";
IfcStairTypeEnum.THREE_QUARTER_WINDING_STAIR = "THREE_QUARTER_WINDING_STAIR";
IfcStairTypeEnum.THREE_QUARTER_TURN_STAIR = "THREE_QUARTER_TURN_STAIR";
IfcStairTypeEnum.SPIRAL_STAIR = "SPIRAL_STAIR";
IfcStairTypeEnum.DOUBLE_RETURN_STAIR = "DOUBLE_RETURN_STAIR";
IfcStairTypeEnum.CURVED_RUN_STAIR = "CURVED_RUN_STAIR";
IfcStairTypeEnum.TWO_CURVED_RUN_STAIR = "TWO_CURVED_RUN_STAIR";
IfcStairTypeEnum.USERDEFINED = "USERDEFINED";
IfcStairTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStateEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStateEnum.READWRITE = "READWRITE";
IfcStateEnum.READONLY = "READONLY";
IfcStateEnum.LOCKED = "LOCKED";
IfcStateEnum.READWRITELOCKED = "READWRITELOCKED";
IfcStateEnum.READONLYLOCKED = "READONLYLOCKED";
var IfcStructuralCurveActivityTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStructuralCurveActivityTypeEnum.CONST = "CONST";
IfcStructuralCurveActivityTypeEnum.LINEAR = "LINEAR";
IfcStructuralCurveActivityTypeEnum.POLYGONAL = "POLYGONAL";
IfcStructuralCurveActivityTypeEnum.EQUIDISTANT = "EQUIDISTANT";
IfcStructuralCurveActivityTypeEnum.SINUS = "SINUS";
IfcStructuralCurveActivityTypeEnum.PARABOLA = "PARABOLA";
IfcStructuralCurveActivityTypeEnum.DISCRETE = "DISCRETE";
IfcStructuralCurveActivityTypeEnum.USERDEFINED = "USERDEFINED";
IfcStructuralCurveActivityTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStructuralCurveMemberTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStructuralCurveMemberTypeEnum.RIGID_JOINED_MEMBER = "RIGID_JOINED_MEMBER";
IfcStructuralCurveMemberTypeEnum.PIN_JOINED_MEMBER = "PIN_JOINED_MEMBER";
IfcStructuralCurveMemberTypeEnum.CABLE = "CABLE";
IfcStructuralCurveMemberTypeEnum.TENSION_MEMBER = "TENSION_MEMBER";
IfcStructuralCurveMemberTypeEnum.COMPRESSION_MEMBER = "COMPRESSION_MEMBER";
IfcStructuralCurveMemberTypeEnum.USERDEFINED = "USERDEFINED";
IfcStructuralCurveMemberTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStructuralSurfaceActivityTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStructuralSurfaceActivityTypeEnum.CONST = "CONST";
IfcStructuralSurfaceActivityTypeEnum.BILINEAR = "BILINEAR";
IfcStructuralSurfaceActivityTypeEnum.DISCRETE = "DISCRETE";
IfcStructuralSurfaceActivityTypeEnum.ISOCONTOUR = "ISOCONTOUR";
IfcStructuralSurfaceActivityTypeEnum.USERDEFINED = "USERDEFINED";
IfcStructuralSurfaceActivityTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcStructuralSurfaceMemberTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcStructuralSurfaceMemberTypeEnum.BENDING_ELEMENT = "BENDING_ELEMENT";
IfcStructuralSurfaceMemberTypeEnum.MEMBRANE_ELEMENT = "MEMBRANE_ELEMENT";
IfcStructuralSurfaceMemberTypeEnum.SHELL = "SHELL";
IfcStructuralSurfaceMemberTypeEnum.USERDEFINED = "USERDEFINED";
IfcStructuralSurfaceMemberTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSubContractResourceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSubContractResourceTypeEnum.PURCHASE = "PURCHASE";
IfcSubContractResourceTypeEnum.WORK = "WORK";
IfcSubContractResourceTypeEnum.USERDEFINED = "USERDEFINED";
IfcSubContractResourceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSurfaceFeatureTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSurfaceFeatureTypeEnum.MARK = "MARK";
IfcSurfaceFeatureTypeEnum.TAG = "TAG";
IfcSurfaceFeatureTypeEnum.TREATMENT = "TREATMENT";
IfcSurfaceFeatureTypeEnum.DEFECT = "DEFECT";
IfcSurfaceFeatureTypeEnum.USERDEFINED = "USERDEFINED";
IfcSurfaceFeatureTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSurfaceSide = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSurfaceSide.POSITIVE = "POSITIVE";
IfcSurfaceSide.NEGATIVE = "NEGATIVE";
IfcSurfaceSide.BOTH = "BOTH";
var IfcSwitchingDeviceTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSwitchingDeviceTypeEnum.CONTACTOR = "CONTACTOR";
IfcSwitchingDeviceTypeEnum.DIMMERSWITCH = "DIMMERSWITCH";
IfcSwitchingDeviceTypeEnum.EMERGENCYSTOP = "EMERGENCYSTOP";
IfcSwitchingDeviceTypeEnum.KEYPAD = "KEYPAD";
IfcSwitchingDeviceTypeEnum.MOMENTARYSWITCH = "MOMENTARYSWITCH";
IfcSwitchingDeviceTypeEnum.SELECTORSWITCH = "SELECTORSWITCH";
IfcSwitchingDeviceTypeEnum.STARTER = "STARTER";
IfcSwitchingDeviceTypeEnum.SWITCHDISCONNECTOR = "SWITCHDISCONNECTOR";
IfcSwitchingDeviceTypeEnum.TOGGLESWITCH = "TOGGLESWITCH";
IfcSwitchingDeviceTypeEnum.USERDEFINED = "USERDEFINED";
IfcSwitchingDeviceTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcSystemFurnitureElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcSystemFurnitureElementTypeEnum.PANEL = "PANEL";
IfcSystemFurnitureElementTypeEnum.WORKSURFACE = "WORKSURFACE";
IfcSystemFurnitureElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcSystemFurnitureElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTankTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTankTypeEnum.BASIN = "BASIN";
IfcTankTypeEnum.BREAKPRESSURE = "BREAKPRESSURE";
IfcTankTypeEnum.EXPANSION = "EXPANSION";
IfcTankTypeEnum.FEEDANDEXPANSION = "FEEDANDEXPANSION";
IfcTankTypeEnum.PRESSUREVESSEL = "PRESSUREVESSEL";
IfcTankTypeEnum.STORAGE = "STORAGE";
IfcTankTypeEnum.VESSEL = "VESSEL";
IfcTankTypeEnum.USERDEFINED = "USERDEFINED";
IfcTankTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTaskDurationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTaskDurationEnum.ELAPSEDTIME = "ELAPSEDTIME";
IfcTaskDurationEnum.WORKTIME = "WORKTIME";
IfcTaskDurationEnum.NOTDEFINED = "NOTDEFINED";
var IfcTaskTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTaskTypeEnum.ATTENDANCE = "ATTENDANCE";
IfcTaskTypeEnum.CONSTRUCTION = "CONSTRUCTION";
IfcTaskTypeEnum.DEMOLITION = "DEMOLITION";
IfcTaskTypeEnum.DISMANTLE = "DISMANTLE";
IfcTaskTypeEnum.DISPOSAL = "DISPOSAL";
IfcTaskTypeEnum.INSTALLATION = "INSTALLATION";
IfcTaskTypeEnum.LOGISTIC = "LOGISTIC";
IfcTaskTypeEnum.MAINTENANCE = "MAINTENANCE";
IfcTaskTypeEnum.MOVE = "MOVE";
IfcTaskTypeEnum.OPERATION = "OPERATION";
IfcTaskTypeEnum.REMOVAL = "REMOVAL";
IfcTaskTypeEnum.RENOVATION = "RENOVATION";
IfcTaskTypeEnum.USERDEFINED = "USERDEFINED";
IfcTaskTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTendonAnchorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTendonAnchorTypeEnum.COUPLER = "COUPLER";
IfcTendonAnchorTypeEnum.FIXED_END = "FIXED_END";
IfcTendonAnchorTypeEnum.TENSIONING_END = "TENSIONING_END";
IfcTendonAnchorTypeEnum.USERDEFINED = "USERDEFINED";
IfcTendonAnchorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTendonConduitTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTendonConduitTypeEnum.DUCT = "DUCT";
IfcTendonConduitTypeEnum.COUPLER = "COUPLER";
IfcTendonConduitTypeEnum.GROUTING_DUCT = "GROUTING_DUCT";
IfcTendonConduitTypeEnum.TRUMPET = "TRUMPET";
IfcTendonConduitTypeEnum.DIABOLO = "DIABOLO";
IfcTendonConduitTypeEnum.USERDEFINED = "USERDEFINED";
IfcTendonConduitTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTendonTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTendonTypeEnum.BAR = "BAR";
IfcTendonTypeEnum.COATED = "COATED";
IfcTendonTypeEnum.STRAND = "STRAND";
IfcTendonTypeEnum.WIRE = "WIRE";
IfcTendonTypeEnum.USERDEFINED = "USERDEFINED";
IfcTendonTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTextPath = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTextPath.LEFT = "LEFT";
IfcTextPath.RIGHT = "RIGHT";
IfcTextPath.UP = "UP";
IfcTextPath.DOWN = "DOWN";
var IfcTimeSeriesDataTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTimeSeriesDataTypeEnum.CONTINUOUS = "CONTINUOUS";
IfcTimeSeriesDataTypeEnum.DISCRETE = "DISCRETE";
IfcTimeSeriesDataTypeEnum.DISCRETEBINARY = "DISCRETEBINARY";
IfcTimeSeriesDataTypeEnum.PIECEWISEBINARY = "PIECEWISEBINARY";
IfcTimeSeriesDataTypeEnum.PIECEWISECONSTANT = "PIECEWISECONSTANT";
IfcTimeSeriesDataTypeEnum.PIECEWISECONTINUOUS = "PIECEWISECONTINUOUS";
IfcTimeSeriesDataTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTransformerTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTransformerTypeEnum.CURRENT = "CURRENT";
IfcTransformerTypeEnum.FREQUENCY = "FREQUENCY";
IfcTransformerTypeEnum.INVERTER = "INVERTER";
IfcTransformerTypeEnum.RECTIFIER = "RECTIFIER";
IfcTransformerTypeEnum.VOLTAGE = "VOLTAGE";
IfcTransformerTypeEnum.USERDEFINED = "USERDEFINED";
IfcTransformerTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTransitionCode = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTransitionCode.DISCONTINUOUS = "DISCONTINUOUS";
IfcTransitionCode.CONTINUOUS = "CONTINUOUS";
IfcTransitionCode.CONTSAMEGRADIENT = "CONTSAMEGRADIENT";
IfcTransitionCode.CONTSAMEGRADIENTSAMECURVATURE = "CONTSAMEGRADIENTSAMECURVATURE";
var IfcTransitionCurveType = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTransitionCurveType.BIQUADRATICPARABOLA = "BIQUADRATICPARABOLA";
IfcTransitionCurveType.BLOSSCURVE = "BLOSSCURVE";
IfcTransitionCurveType.CLOTHOIDCURVE = "CLOTHOIDCURVE";
IfcTransitionCurveType.COSINECURVE = "COSINECURVE";
IfcTransitionCurveType.CUBICPARABOLA = "CUBICPARABOLA";
IfcTransitionCurveType.SINECURVE = "SINECURVE";
var IfcTransportElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTransportElementTypeEnum.ELEVATOR = "ELEVATOR";
IfcTransportElementTypeEnum.ESCALATOR = "ESCALATOR";
IfcTransportElementTypeEnum.MOVINGWALKWAY = "MOVINGWALKWAY";
IfcTransportElementTypeEnum.CRANEWAY = "CRANEWAY";
IfcTransportElementTypeEnum.LIFTINGGEAR = "LIFTINGGEAR";
IfcTransportElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcTransportElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcTrimmingPreference = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTrimmingPreference.CARTESIAN = "CARTESIAN";
IfcTrimmingPreference.PARAMETER = "PARAMETER";
IfcTrimmingPreference.UNSPECIFIED = "UNSPECIFIED";
var IfcTubeBundleTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcTubeBundleTypeEnum.FINNED = "FINNED";
IfcTubeBundleTypeEnum.USERDEFINED = "USERDEFINED";
IfcTubeBundleTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcUnitEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcUnitEnum.ABSORBEDDOSEUNIT = "ABSORBEDDOSEUNIT";
IfcUnitEnum.AMOUNTOFSUBSTANCEUNIT = "AMOUNTOFSUBSTANCEUNIT";
IfcUnitEnum.AREAUNIT = "AREAUNIT";
IfcUnitEnum.DOSEEQUIVALENTUNIT = "DOSEEQUIVALENTUNIT";
IfcUnitEnum.ELECTRICCAPACITANCEUNIT = "ELECTRICCAPACITANCEUNIT";
IfcUnitEnum.ELECTRICCHARGEUNIT = "ELECTRICCHARGEUNIT";
IfcUnitEnum.ELECTRICCONDUCTANCEUNIT = "ELECTRICCONDUCTANCEUNIT";
IfcUnitEnum.ELECTRICCURRENTUNIT = "ELECTRICCURRENTUNIT";
IfcUnitEnum.ELECTRICRESISTANCEUNIT = "ELECTRICRESISTANCEUNIT";
IfcUnitEnum.ELECTRICVOLTAGEUNIT = "ELECTRICVOLTAGEUNIT";
IfcUnitEnum.ENERGYUNIT = "ENERGYUNIT";
IfcUnitEnum.FORCEUNIT = "FORCEUNIT";
IfcUnitEnum.FREQUENCYUNIT = "FREQUENCYUNIT";
IfcUnitEnum.ILLUMINANCEUNIT = "ILLUMINANCEUNIT";
IfcUnitEnum.INDUCTANCEUNIT = "INDUCTANCEUNIT";
IfcUnitEnum.LENGTHUNIT = "LENGTHUNIT";
IfcUnitEnum.LUMINOUSFLUXUNIT = "LUMINOUSFLUXUNIT";
IfcUnitEnum.LUMINOUSINTENSITYUNIT = "LUMINOUSINTENSITYUNIT";
IfcUnitEnum.MAGNETICFLUXDENSITYUNIT = "MAGNETICFLUXDENSITYUNIT";
IfcUnitEnum.MAGNETICFLUXUNIT = "MAGNETICFLUXUNIT";
IfcUnitEnum.MASSUNIT = "MASSUNIT";
IfcUnitEnum.PLANEANGLEUNIT = "PLANEANGLEUNIT";
IfcUnitEnum.POWERUNIT = "POWERUNIT";
IfcUnitEnum.PRESSUREUNIT = "PRESSUREUNIT";
IfcUnitEnum.RADIOACTIVITYUNIT = "RADIOACTIVITYUNIT";
IfcUnitEnum.SOLIDANGLEUNIT = "SOLIDANGLEUNIT";
IfcUnitEnum.THERMODYNAMICTEMPERATUREUNIT = "THERMODYNAMICTEMPERATUREUNIT";
IfcUnitEnum.TIMEUNIT = "TIMEUNIT";
IfcUnitEnum.VOLUMEUNIT = "VOLUMEUNIT";
IfcUnitEnum.USERDEFINED = "USERDEFINED";
var IfcUnitaryControlElementTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcUnitaryControlElementTypeEnum.ALARMPANEL = "ALARMPANEL";
IfcUnitaryControlElementTypeEnum.CONTROLPANEL = "CONTROLPANEL";
IfcUnitaryControlElementTypeEnum.GASDETECTIONPANEL = "GASDETECTIONPANEL";
IfcUnitaryControlElementTypeEnum.INDICATORPANEL = "INDICATORPANEL";
IfcUnitaryControlElementTypeEnum.MIMICPANEL = "MIMICPANEL";
IfcUnitaryControlElementTypeEnum.HUMIDISTAT = "HUMIDISTAT";
IfcUnitaryControlElementTypeEnum.THERMOSTAT = "THERMOSTAT";
IfcUnitaryControlElementTypeEnum.WEATHERSTATION = "WEATHERSTATION";
IfcUnitaryControlElementTypeEnum.USERDEFINED = "USERDEFINED";
IfcUnitaryControlElementTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcUnitaryEquipmentTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcUnitaryEquipmentTypeEnum.AIRHANDLER = "AIRHANDLER";
IfcUnitaryEquipmentTypeEnum.AIRCONDITIONINGUNIT = "AIRCONDITIONINGUNIT";
IfcUnitaryEquipmentTypeEnum.DEHUMIDIFIER = "DEHUMIDIFIER";
IfcUnitaryEquipmentTypeEnum.SPLITSYSTEM = "SPLITSYSTEM";
IfcUnitaryEquipmentTypeEnum.ROOFTOPUNIT = "ROOFTOPUNIT";
IfcUnitaryEquipmentTypeEnum.USERDEFINED = "USERDEFINED";
IfcUnitaryEquipmentTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcValveTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcValveTypeEnum.AIRRELEASE = "AIRRELEASE";
IfcValveTypeEnum.ANTIVACUUM = "ANTIVACUUM";
IfcValveTypeEnum.CHANGEOVER = "CHANGEOVER";
IfcValveTypeEnum.CHECK = "CHECK";
IfcValveTypeEnum.COMMISSIONING = "COMMISSIONING";
IfcValveTypeEnum.DIVERTING = "DIVERTING";
IfcValveTypeEnum.DRAWOFFCOCK = "DRAWOFFCOCK";
IfcValveTypeEnum.DOUBLECHECK = "DOUBLECHECK";
IfcValveTypeEnum.DOUBLEREGULATING = "DOUBLEREGULATING";
IfcValveTypeEnum.FAUCET = "FAUCET";
IfcValveTypeEnum.FLUSHING = "FLUSHING";
IfcValveTypeEnum.GASCOCK = "GASCOCK";
IfcValveTypeEnum.GASTAP = "GASTAP";
IfcValveTypeEnum.ISOLATING = "ISOLATING";
IfcValveTypeEnum.MIXING = "MIXING";
IfcValveTypeEnum.PRESSUREREDUCING = "PRESSUREREDUCING";
IfcValveTypeEnum.PRESSURERELIEF = "PRESSURERELIEF";
IfcValveTypeEnum.REGULATING = "REGULATING";
IfcValveTypeEnum.SAFETYCUTOFF = "SAFETYCUTOFF";
IfcValveTypeEnum.STEAMTRAP = "STEAMTRAP";
IfcValveTypeEnum.STOPCOCK = "STOPCOCK";
IfcValveTypeEnum.USERDEFINED = "USERDEFINED";
IfcValveTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcVibrationDamperTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcVibrationDamperTypeEnum.BENDING_YIELD = "BENDING_YIELD";
IfcVibrationDamperTypeEnum.SHEAR_YIELD = "SHEAR_YIELD";
IfcVibrationDamperTypeEnum.AXIAL_YIELD = "AXIAL_YIELD";
IfcVibrationDamperTypeEnum.FRICTION = "FRICTION";
IfcVibrationDamperTypeEnum.VISCOUS = "VISCOUS";
IfcVibrationDamperTypeEnum.RUBBER = "RUBBER";
IfcVibrationDamperTypeEnum.USERDEFINED = "USERDEFINED";
IfcVibrationDamperTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcVibrationIsolatorTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcVibrationIsolatorTypeEnum.COMPRESSION = "COMPRESSION";
IfcVibrationIsolatorTypeEnum.SPRING = "SPRING";
IfcVibrationIsolatorTypeEnum.BASE = "BASE";
IfcVibrationIsolatorTypeEnum.USERDEFINED = "USERDEFINED";
IfcVibrationIsolatorTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcVoidingFeatureTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcVoidingFeatureTypeEnum.CUTOUT = "CUTOUT";
IfcVoidingFeatureTypeEnum.NOTCH = "NOTCH";
IfcVoidingFeatureTypeEnum.HOLE = "HOLE";
IfcVoidingFeatureTypeEnum.MITER = "MITER";
IfcVoidingFeatureTypeEnum.CHAMFER = "CHAMFER";
IfcVoidingFeatureTypeEnum.EDGE = "EDGE";
IfcVoidingFeatureTypeEnum.USERDEFINED = "USERDEFINED";
IfcVoidingFeatureTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcWallTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWallTypeEnum.MOVABLE = "MOVABLE";
IfcWallTypeEnum.PARAPET = "PARAPET";
IfcWallTypeEnum.PARTITIONING = "PARTITIONING";
IfcWallTypeEnum.PLUMBINGWALL = "PLUMBINGWALL";
IfcWallTypeEnum.SHEAR = "SHEAR";
IfcWallTypeEnum.SOLIDWALL = "SOLIDWALL";
IfcWallTypeEnum.STANDARD = "STANDARD";
IfcWallTypeEnum.POLYGONAL = "POLYGONAL";
IfcWallTypeEnum.ELEMENTEDWALL = "ELEMENTEDWALL";
IfcWallTypeEnum.RETAININGWALL = "RETAININGWALL";
IfcWallTypeEnum.USERDEFINED = "USERDEFINED";
IfcWallTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcWasteTerminalTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWasteTerminalTypeEnum.FLOORTRAP = "FLOORTRAP";
IfcWasteTerminalTypeEnum.FLOORWASTE = "FLOORWASTE";
IfcWasteTerminalTypeEnum.GULLYSUMP = "GULLYSUMP";
IfcWasteTerminalTypeEnum.GULLYTRAP = "GULLYTRAP";
IfcWasteTerminalTypeEnum.ROOFDRAIN = "ROOFDRAIN";
IfcWasteTerminalTypeEnum.WASTEDISPOSALUNIT = "WASTEDISPOSALUNIT";
IfcWasteTerminalTypeEnum.WASTETRAP = "WASTETRAP";
IfcWasteTerminalTypeEnum.USERDEFINED = "USERDEFINED";
IfcWasteTerminalTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcWindowPanelOperationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWindowPanelOperationEnum.SIDEHUNGRIGHTHAND = "SIDEHUNGRIGHTHAND";
IfcWindowPanelOperationEnum.SIDEHUNGLEFTHAND = "SIDEHUNGLEFTHAND";
IfcWindowPanelOperationEnum.TILTANDTURNRIGHTHAND = "TILTANDTURNRIGHTHAND";
IfcWindowPanelOperationEnum.TILTANDTURNLEFTHAND = "TILTANDTURNLEFTHAND";
IfcWindowPanelOperationEnum.TOPHUNG = "TOPHUNG";
IfcWindowPanelOperationEnum.BOTTOMHUNG = "BOTTOMHUNG";
IfcWindowPanelOperationEnum.PIVOTHORIZONTAL = "PIVOTHORIZONTAL";
IfcWindowPanelOperationEnum.PIVOTVERTICAL = "PIVOTVERTICAL";
IfcWindowPanelOperationEnum.SLIDINGHORIZONTAL = "SLIDINGHORIZONTAL";
IfcWindowPanelOperationEnum.SLIDINGVERTICAL = "SLIDINGVERTICAL";
IfcWindowPanelOperationEnum.REMOVABLECASEMENT = "REMOVABLECASEMENT";
IfcWindowPanelOperationEnum.FIXEDCASEMENT = "FIXEDCASEMENT";
IfcWindowPanelOperationEnum.OTHEROPERATION = "OTHEROPERATION";
IfcWindowPanelOperationEnum.NOTDEFINED = "NOTDEFINED";
var IfcWindowPanelPositionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWindowPanelPositionEnum.LEFT = "LEFT";
IfcWindowPanelPositionEnum.MIDDLE = "MIDDLE";
IfcWindowPanelPositionEnum.RIGHT = "RIGHT";
IfcWindowPanelPositionEnum.BOTTOM = "BOTTOM";
IfcWindowPanelPositionEnum.TOP = "TOP";
IfcWindowPanelPositionEnum.NOTDEFINED = "NOTDEFINED";
var IfcWindowStyleConstructionEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWindowStyleConstructionEnum.ALUMINIUM = "ALUMINIUM";
IfcWindowStyleConstructionEnum.HIGH_GRADE_STEEL = "HIGH_GRADE_STEEL";
IfcWindowStyleConstructionEnum.STEEL = "STEEL";
IfcWindowStyleConstructionEnum.WOOD = "WOOD";
IfcWindowStyleConstructionEnum.ALUMINIUM_WOOD = "ALUMINIUM_WOOD";
IfcWindowStyleConstructionEnum.PLASTIC = "PLASTIC";
IfcWindowStyleConstructionEnum.OTHER_CONSTRUCTION = "OTHER_CONSTRUCTION";
IfcWindowStyleConstructionEnum.NOTDEFINED = "NOTDEFINED";
var IfcWindowStyleOperationEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWindowStyleOperationEnum.SINGLE_PANEL = "SINGLE_PANEL";
IfcWindowStyleOperationEnum.DOUBLE_PANEL_VERTICAL = "DOUBLE_PANEL_VERTICAL";
IfcWindowStyleOperationEnum.DOUBLE_PANEL_HORIZONTAL = "DOUBLE_PANEL_HORIZONTAL";
IfcWindowStyleOperationEnum.TRIPLE_PANEL_VERTICAL = "TRIPLE_PANEL_VERTICAL";
IfcWindowStyleOperationEnum.TRIPLE_PANEL_BOTTOM = "TRIPLE_PANEL_BOTTOM";
IfcWindowStyleOperationEnum.TRIPLE_PANEL_TOP = "TRIPLE_PANEL_TOP";
IfcWindowStyleOperationEnum.TRIPLE_PANEL_LEFT = "TRIPLE_PANEL_LEFT";
IfcWindowStyleOperationEnum.TRIPLE_PANEL_RIGHT = "TRIPLE_PANEL_RIGHT";
IfcWindowStyleOperationEnum.TRIPLE_PANEL_HORIZONTAL = "TRIPLE_PANEL_HORIZONTAL";
IfcWindowStyleOperationEnum.USERDEFINED = "USERDEFINED";
IfcWindowStyleOperationEnum.NOTDEFINED = "NOTDEFINED";
var IfcWindowTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWindowTypeEnum.WINDOW = "WINDOW";
IfcWindowTypeEnum.SKYLIGHT = "SKYLIGHT";
IfcWindowTypeEnum.LIGHTDOME = "LIGHTDOME";
IfcWindowTypeEnum.USERDEFINED = "USERDEFINED";
IfcWindowTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcWindowTypePartitioningEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWindowTypePartitioningEnum.SINGLE_PANEL = "SINGLE_PANEL";
IfcWindowTypePartitioningEnum.DOUBLE_PANEL_VERTICAL = "DOUBLE_PANEL_VERTICAL";
IfcWindowTypePartitioningEnum.DOUBLE_PANEL_HORIZONTAL = "DOUBLE_PANEL_HORIZONTAL";
IfcWindowTypePartitioningEnum.TRIPLE_PANEL_VERTICAL = "TRIPLE_PANEL_VERTICAL";
IfcWindowTypePartitioningEnum.TRIPLE_PANEL_BOTTOM = "TRIPLE_PANEL_BOTTOM";
IfcWindowTypePartitioningEnum.TRIPLE_PANEL_TOP = "TRIPLE_PANEL_TOP";
IfcWindowTypePartitioningEnum.TRIPLE_PANEL_LEFT = "TRIPLE_PANEL_LEFT";
IfcWindowTypePartitioningEnum.TRIPLE_PANEL_RIGHT = "TRIPLE_PANEL_RIGHT";
IfcWindowTypePartitioningEnum.TRIPLE_PANEL_HORIZONTAL = "TRIPLE_PANEL_HORIZONTAL";
IfcWindowTypePartitioningEnum.USERDEFINED = "USERDEFINED";
IfcWindowTypePartitioningEnum.NOTDEFINED = "NOTDEFINED";
var IfcWorkCalendarTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWorkCalendarTypeEnum.FIRSTSHIFT = "FIRSTSHIFT";
IfcWorkCalendarTypeEnum.SECONDSHIFT = "SECONDSHIFT";
IfcWorkCalendarTypeEnum.THIRDSHIFT = "THIRDSHIFT";
IfcWorkCalendarTypeEnum.USERDEFINED = "USERDEFINED";
IfcWorkCalendarTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcWorkPlanTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWorkPlanTypeEnum.ACTUAL = "ACTUAL";
IfcWorkPlanTypeEnum.BASELINE = "BASELINE";
IfcWorkPlanTypeEnum.PLANNED = "PLANNED";
IfcWorkPlanTypeEnum.USERDEFINED = "USERDEFINED";
IfcWorkPlanTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcWorkScheduleTypeEnum = class {
  constructor(v) {
    this.value = v;
  }
};
IfcWorkScheduleTypeEnum.ACTUAL = "ACTUAL";
IfcWorkScheduleTypeEnum.BASELINE = "BASELINE";
IfcWorkScheduleTypeEnum.PLANNED = "PLANNED";
IfcWorkScheduleTypeEnum.USERDEFINED = "USERDEFINED";
IfcWorkScheduleTypeEnum.NOTDEFINED = "NOTDEFINED";
var IfcActionRequest = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, LongDescription) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.PredefinedType = PredefinedType;
    this.Status = Status;
    this.LongDescription = LongDescription;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Status = tape[ptr++];
    let LongDescription = tape[ptr++];
    return new IfcActionRequest(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, LongDescription);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Status);
    ;
    args.push(this.LongDescription);
    ;
    return args;
  }
};
var IfcActor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, TheActor) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.TheActor = TheActor;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let TheActor = tape[ptr++];
    return new IfcActor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, TheActor);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.TheActor);
    ;
    return args;
  }
};
var IfcActorRole = class {
  constructor(expressID, type, Role, UserDefinedRole, Description) {
    this.expressID = expressID;
    this.type = type;
    this.Role = Role;
    this.UserDefinedRole = UserDefinedRole;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Role = tape[ptr++];
    let UserDefinedRole = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcActorRole(expressID, type, Role, UserDefinedRole, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.Role);
    ;
    args.push(this.UserDefinedRole);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcActuator = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcActuator(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcActuatorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcActuatorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAddress = class {
  constructor(expressID, type, Purpose, Description, UserDefinedPurpose) {
    this.expressID = expressID;
    this.type = type;
    this.Purpose = Purpose;
    this.Description = Description;
    this.UserDefinedPurpose = UserDefinedPurpose;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Purpose = tape[ptr++];
    let Description = tape[ptr++];
    let UserDefinedPurpose = tape[ptr++];
    return new IfcAddress(expressID, type, Purpose, Description, UserDefinedPurpose);
  }
  ToTape() {
    let args = [];
    args.push(this.Purpose);
    ;
    args.push(this.Description);
    ;
    args.push(this.UserDefinedPurpose);
    ;
    return args;
  }
};
var IfcAdvancedBrep = class {
  constructor(expressID, type, Outer) {
    this.expressID = expressID;
    this.type = type;
    this.Outer = Outer;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Outer = tape[ptr++];
    return new IfcAdvancedBrep(expressID, type, Outer);
  }
  ToTape() {
    let args = [];
    args.push(this.Outer);
    ;
    return args;
  }
};
var IfcAdvancedBrepWithVoids = class {
  constructor(expressID, type, Outer, Voids) {
    this.expressID = expressID;
    this.type = type;
    this.Outer = Outer;
    this.Voids = Voids;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Outer = tape[ptr++];
    let Voids = tape[ptr++];
    return new IfcAdvancedBrepWithVoids(expressID, type, Outer, Voids);
  }
  ToTape() {
    let args = [];
    args.push(this.Outer);
    ;
    args.push(this.Voids);
    ;
    return args;
  }
};
var IfcAdvancedFace = class {
  constructor(expressID, type, Bounds, FaceSurface, SameSense) {
    this.expressID = expressID;
    this.type = type;
    this.Bounds = Bounds;
    this.FaceSurface = FaceSurface;
    this.SameSense = SameSense;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Bounds = tape[ptr++];
    let FaceSurface = tape[ptr++];
    let SameSense = tape[ptr++];
    return new IfcAdvancedFace(expressID, type, Bounds, FaceSurface, SameSense);
  }
  ToTape() {
    let args = [];
    args.push(this.Bounds);
    ;
    args.push(this.FaceSurface);
    ;
    args.push(this.SameSense);
    ;
    return args;
  }
};
var IfcAirTerminal = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAirTerminal(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAirTerminalBox = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAirTerminalBox(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAirTerminalBoxType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAirTerminalBoxType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAirTerminalType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAirTerminalType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAirToAirHeatRecovery = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAirToAirHeatRecovery(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAirToAirHeatRecoveryType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAirToAirHeatRecoveryType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAlarm = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAlarm(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAlarmType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAlarmType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAlignment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Axis, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Axis = Axis;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Axis = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAlignment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Axis, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Axis);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAlignment2DHorizontal = class {
  constructor(expressID, type, StartDistAlong, Segments) {
    this.expressID = expressID;
    this.type = type;
    this.StartDistAlong = StartDistAlong;
    this.Segments = Segments;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let StartDistAlong = tape[ptr++];
    let Segments = tape[ptr++];
    return new IfcAlignment2DHorizontal(expressID, type, StartDistAlong, Segments);
  }
  ToTape() {
    let args = [];
    args.push(this.StartDistAlong);
    ;
    args.push(this.Segments);
    ;
    return args;
  }
};
var IfcAlignment2DHorizontalSegment = class {
  constructor(expressID, type, TangentialContinuity, StartTag, EndTag, CurveGeometry) {
    this.expressID = expressID;
    this.type = type;
    this.TangentialContinuity = TangentialContinuity;
    this.StartTag = StartTag;
    this.EndTag = EndTag;
    this.CurveGeometry = CurveGeometry;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TangentialContinuity = tape[ptr++];
    let StartTag = tape[ptr++];
    let EndTag = tape[ptr++];
    let CurveGeometry = tape[ptr++];
    return new IfcAlignment2DHorizontalSegment(expressID, type, TangentialContinuity, StartTag, EndTag, CurveGeometry);
  }
  ToTape() {
    let args = [];
    args.push(this.TangentialContinuity);
    ;
    args.push(this.StartTag);
    ;
    args.push(this.EndTag);
    ;
    args.push(this.CurveGeometry);
    ;
    return args;
  }
};
var IfcAlignment2DSegment = class {
  constructor(expressID, type, TangentialContinuity, StartTag, EndTag) {
    this.expressID = expressID;
    this.type = type;
    this.TangentialContinuity = TangentialContinuity;
    this.StartTag = StartTag;
    this.EndTag = EndTag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TangentialContinuity = tape[ptr++];
    let StartTag = tape[ptr++];
    let EndTag = tape[ptr++];
    return new IfcAlignment2DSegment(expressID, type, TangentialContinuity, StartTag, EndTag);
  }
  ToTape() {
    let args = [];
    args.push(this.TangentialContinuity);
    ;
    args.push(this.StartTag);
    ;
    args.push(this.EndTag);
    ;
    return args;
  }
};
var IfcAlignment2DVerSegCircularArc = class {
  constructor(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient, Radius, IsConvex) {
    this.expressID = expressID;
    this.type = type;
    this.TangentialContinuity = TangentialContinuity;
    this.StartTag = StartTag;
    this.EndTag = EndTag;
    this.StartDistAlong = StartDistAlong;
    this.HorizontalLength = HorizontalLength;
    this.StartHeight = StartHeight;
    this.StartGradient = StartGradient;
    this.Radius = Radius;
    this.IsConvex = IsConvex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TangentialContinuity = tape[ptr++];
    let StartTag = tape[ptr++];
    let EndTag = tape[ptr++];
    let StartDistAlong = tape[ptr++];
    let HorizontalLength = tape[ptr++];
    let StartHeight = tape[ptr++];
    let StartGradient = tape[ptr++];
    let Radius = tape[ptr++];
    let IsConvex = tape[ptr++];
    return new IfcAlignment2DVerSegCircularArc(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient, Radius, IsConvex);
  }
  ToTape() {
    let args = [];
    args.push(this.TangentialContinuity);
    ;
    args.push(this.StartTag);
    ;
    args.push(this.EndTag);
    ;
    args.push(this.StartDistAlong);
    ;
    args.push(this.HorizontalLength);
    ;
    args.push(this.StartHeight);
    ;
    args.push(this.StartGradient);
    ;
    args.push(this.Radius);
    ;
    args.push(this.IsConvex);
    ;
    return args;
  }
};
var IfcAlignment2DVerSegLine = class {
  constructor(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient) {
    this.expressID = expressID;
    this.type = type;
    this.TangentialContinuity = TangentialContinuity;
    this.StartTag = StartTag;
    this.EndTag = EndTag;
    this.StartDistAlong = StartDistAlong;
    this.HorizontalLength = HorizontalLength;
    this.StartHeight = StartHeight;
    this.StartGradient = StartGradient;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TangentialContinuity = tape[ptr++];
    let StartTag = tape[ptr++];
    let EndTag = tape[ptr++];
    let StartDistAlong = tape[ptr++];
    let HorizontalLength = tape[ptr++];
    let StartHeight = tape[ptr++];
    let StartGradient = tape[ptr++];
    return new IfcAlignment2DVerSegLine(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient);
  }
  ToTape() {
    let args = [];
    args.push(this.TangentialContinuity);
    ;
    args.push(this.StartTag);
    ;
    args.push(this.EndTag);
    ;
    args.push(this.StartDistAlong);
    ;
    args.push(this.HorizontalLength);
    ;
    args.push(this.StartHeight);
    ;
    args.push(this.StartGradient);
    ;
    return args;
  }
};
var IfcAlignment2DVerSegParabolicArc = class {
  constructor(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient, ParabolaConstant, IsConvex) {
    this.expressID = expressID;
    this.type = type;
    this.TangentialContinuity = TangentialContinuity;
    this.StartTag = StartTag;
    this.EndTag = EndTag;
    this.StartDistAlong = StartDistAlong;
    this.HorizontalLength = HorizontalLength;
    this.StartHeight = StartHeight;
    this.StartGradient = StartGradient;
    this.ParabolaConstant = ParabolaConstant;
    this.IsConvex = IsConvex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TangentialContinuity = tape[ptr++];
    let StartTag = tape[ptr++];
    let EndTag = tape[ptr++];
    let StartDistAlong = tape[ptr++];
    let HorizontalLength = tape[ptr++];
    let StartHeight = tape[ptr++];
    let StartGradient = tape[ptr++];
    let ParabolaConstant = tape[ptr++];
    let IsConvex = tape[ptr++];
    return new IfcAlignment2DVerSegParabolicArc(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient, ParabolaConstant, IsConvex);
  }
  ToTape() {
    let args = [];
    args.push(this.TangentialContinuity);
    ;
    args.push(this.StartTag);
    ;
    args.push(this.EndTag);
    ;
    args.push(this.StartDistAlong);
    ;
    args.push(this.HorizontalLength);
    ;
    args.push(this.StartHeight);
    ;
    args.push(this.StartGradient);
    ;
    args.push(this.ParabolaConstant);
    ;
    args.push(this.IsConvex);
    ;
    return args;
  }
};
var IfcAlignment2DVertical = class {
  constructor(expressID, type, Segments) {
    this.expressID = expressID;
    this.type = type;
    this.Segments = Segments;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Segments = tape[ptr++];
    return new IfcAlignment2DVertical(expressID, type, Segments);
  }
  ToTape() {
    let args = [];
    args.push(this.Segments);
    ;
    return args;
  }
};
var IfcAlignment2DVerticalSegment = class {
  constructor(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient) {
    this.expressID = expressID;
    this.type = type;
    this.TangentialContinuity = TangentialContinuity;
    this.StartTag = StartTag;
    this.EndTag = EndTag;
    this.StartDistAlong = StartDistAlong;
    this.HorizontalLength = HorizontalLength;
    this.StartHeight = StartHeight;
    this.StartGradient = StartGradient;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TangentialContinuity = tape[ptr++];
    let StartTag = tape[ptr++];
    let EndTag = tape[ptr++];
    let StartDistAlong = tape[ptr++];
    let HorizontalLength = tape[ptr++];
    let StartHeight = tape[ptr++];
    let StartGradient = tape[ptr++];
    return new IfcAlignment2DVerticalSegment(expressID, type, TangentialContinuity, StartTag, EndTag, StartDistAlong, HorizontalLength, StartHeight, StartGradient);
  }
  ToTape() {
    let args = [];
    args.push(this.TangentialContinuity);
    ;
    args.push(this.StartTag);
    ;
    args.push(this.EndTag);
    ;
    args.push(this.StartDistAlong);
    ;
    args.push(this.HorizontalLength);
    ;
    args.push(this.StartHeight);
    ;
    args.push(this.StartGradient);
    ;
    return args;
  }
};
var IfcAlignmentCurve = class {
  constructor(expressID, type, Horizontal, Vertical, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.Horizontal = Horizontal;
    this.Vertical = Vertical;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Horizontal = tape[ptr++];
    let Vertical = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcAlignmentCurve(expressID, type, Horizontal, Vertical, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.Horizontal);
    ;
    args.push(this.Vertical);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcAnnotation = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    return new IfcAnnotation(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    return args;
  }
};
var IfcAnnotationFillArea = class {
  constructor(expressID, type, OuterBoundary, InnerBoundaries) {
    this.expressID = expressID;
    this.type = type;
    this.OuterBoundary = OuterBoundary;
    this.InnerBoundaries = InnerBoundaries;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let OuterBoundary = tape[ptr++];
    let InnerBoundaries = tape[ptr++];
    return new IfcAnnotationFillArea(expressID, type, OuterBoundary, InnerBoundaries);
  }
  ToTape() {
    let args = [];
    args.push(this.OuterBoundary);
    ;
    args.push(this.InnerBoundaries);
    ;
    return args;
  }
};
var IfcApplication = class {
  constructor(expressID, type, ApplicationDeveloper, Version, ApplicationFullName, ApplicationIdentifier) {
    this.expressID = expressID;
    this.type = type;
    this.ApplicationDeveloper = ApplicationDeveloper;
    this.Version = Version;
    this.ApplicationFullName = ApplicationFullName;
    this.ApplicationIdentifier = ApplicationIdentifier;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ApplicationDeveloper = tape[ptr++];
    let Version = tape[ptr++];
    let ApplicationFullName = tape[ptr++];
    let ApplicationIdentifier = tape[ptr++];
    return new IfcApplication(expressID, type, ApplicationDeveloper, Version, ApplicationFullName, ApplicationIdentifier);
  }
  ToTape() {
    let args = [];
    args.push(this.ApplicationDeveloper);
    ;
    args.push(this.Version);
    ;
    args.push(this.ApplicationFullName);
    ;
    args.push(this.ApplicationIdentifier);
    ;
    return args;
  }
};
var IfcAppliedValue = class {
  constructor(expressID, type, Name, Description, AppliedValue, UnitBasis, ApplicableDate, FixedUntilDate, Category, Condition, ArithmeticOperator, Components) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.AppliedValue = AppliedValue;
    this.UnitBasis = UnitBasis;
    this.ApplicableDate = ApplicableDate;
    this.FixedUntilDate = FixedUntilDate;
    this.Category = Category;
    this.Condition = Condition;
    this.ArithmeticOperator = ArithmeticOperator;
    this.Components = Components;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let AppliedValue = tape[ptr++];
    let UnitBasis = tape[ptr++];
    let ApplicableDate = tape[ptr++];
    let FixedUntilDate = tape[ptr++];
    let Category = tape[ptr++];
    let Condition = tape[ptr++];
    let ArithmeticOperator = tape[ptr++];
    let Components = tape[ptr++];
    return new IfcAppliedValue(expressID, type, Name, Description, AppliedValue, UnitBasis, ApplicableDate, FixedUntilDate, Category, Condition, ArithmeticOperator, Components);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.AppliedValue);
    ;
    args.push(this.UnitBasis);
    ;
    args.push(this.ApplicableDate);
    ;
    args.push(this.FixedUntilDate);
    ;
    args.push(this.Category);
    ;
    args.push(this.Condition);
    ;
    args.push(this.ArithmeticOperator);
    ;
    args.push(this.Components);
    ;
    return args;
  }
};
var IfcApproval = class {
  constructor(expressID, type, Identifier, Name, Description, TimeOfApproval, Status, Level, Qualifier, RequestingApproval, GivingApproval) {
    this.expressID = expressID;
    this.type = type;
    this.Identifier = Identifier;
    this.Name = Name;
    this.Description = Description;
    this.TimeOfApproval = TimeOfApproval;
    this.Status = Status;
    this.Level = Level;
    this.Qualifier = Qualifier;
    this.RequestingApproval = RequestingApproval;
    this.GivingApproval = GivingApproval;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Identifier = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let TimeOfApproval = tape[ptr++];
    let Status = tape[ptr++];
    let Level = tape[ptr++];
    let Qualifier = tape[ptr++];
    let RequestingApproval = tape[ptr++];
    let GivingApproval = tape[ptr++];
    return new IfcApproval(expressID, type, Identifier, Name, Description, TimeOfApproval, Status, Level, Qualifier, RequestingApproval, GivingApproval);
  }
  ToTape() {
    let args = [];
    args.push(this.Identifier);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.TimeOfApproval);
    ;
    args.push(this.Status);
    ;
    args.push(this.Level);
    ;
    args.push(this.Qualifier);
    ;
    args.push(this.RequestingApproval);
    ;
    args.push(this.GivingApproval);
    ;
    return args;
  }
};
var IfcApprovalRelationship = class {
  constructor(expressID, type, Name, Description, RelatingApproval, RelatedApprovals) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingApproval = RelatingApproval;
    this.RelatedApprovals = RelatedApprovals;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingApproval = tape[ptr++];
    let RelatedApprovals = tape[ptr++];
    return new IfcApprovalRelationship(expressID, type, Name, Description, RelatingApproval, RelatedApprovals);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingApproval);
    ;
    args.push(this.RelatedApprovals);
    ;
    return args;
  }
};
var IfcArbitraryClosedProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, OuterCurve) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.OuterCurve = OuterCurve;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let OuterCurve = tape[ptr++];
    return new IfcArbitraryClosedProfileDef(expressID, type, ProfileType, ProfileName, OuterCurve);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.OuterCurve);
    ;
    return args;
  }
};
var IfcArbitraryOpenProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Curve) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Curve = Curve;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Curve = tape[ptr++];
    return new IfcArbitraryOpenProfileDef(expressID, type, ProfileType, ProfileName, Curve);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Curve);
    ;
    return args;
  }
};
var IfcArbitraryProfileDefWithVoids = class {
  constructor(expressID, type, ProfileType, ProfileName, OuterCurve, InnerCurves) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.OuterCurve = OuterCurve;
    this.InnerCurves = InnerCurves;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let OuterCurve = tape[ptr++];
    let InnerCurves = tape[ptr++];
    return new IfcArbitraryProfileDefWithVoids(expressID, type, ProfileType, ProfileName, OuterCurve, InnerCurves);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.OuterCurve);
    ;
    args.push(this.InnerCurves);
    ;
    return args;
  }
};
var IfcAsset = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, OriginalValue, CurrentValue, TotalReplacementCost, Owner, User, ResponsiblePerson, IncorporationDate, DepreciatedValue) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.OriginalValue = OriginalValue;
    this.CurrentValue = CurrentValue;
    this.TotalReplacementCost = TotalReplacementCost;
    this.Owner = Owner;
    this.User = User;
    this.ResponsiblePerson = ResponsiblePerson;
    this.IncorporationDate = IncorporationDate;
    this.DepreciatedValue = DepreciatedValue;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let OriginalValue = tape[ptr++];
    let CurrentValue = tape[ptr++];
    let TotalReplacementCost = tape[ptr++];
    let Owner = tape[ptr++];
    let User = tape[ptr++];
    let ResponsiblePerson = tape[ptr++];
    let IncorporationDate = tape[ptr++];
    let DepreciatedValue = tape[ptr++];
    return new IfcAsset(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, OriginalValue, CurrentValue, TotalReplacementCost, Owner, User, ResponsiblePerson, IncorporationDate, DepreciatedValue);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.OriginalValue);
    ;
    args.push(this.CurrentValue);
    ;
    args.push(this.TotalReplacementCost);
    ;
    args.push(this.Owner);
    ;
    args.push(this.User);
    ;
    args.push(this.ResponsiblePerson);
    ;
    args.push(this.IncorporationDate);
    ;
    args.push(this.DepreciatedValue);
    ;
    return args;
  }
};
var IfcAsymmetricIShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, BottomFlangeWidth, OverallDepth, WebThickness, BottomFlangeThickness, BottomFlangeFilletRadius, TopFlangeWidth, TopFlangeThickness, TopFlangeFilletRadius, BottomFlangeEdgeRadius, BottomFlangeSlope, TopFlangeEdgeRadius, TopFlangeSlope) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.BottomFlangeWidth = BottomFlangeWidth;
    this.OverallDepth = OverallDepth;
    this.WebThickness = WebThickness;
    this.BottomFlangeThickness = BottomFlangeThickness;
    this.BottomFlangeFilletRadius = BottomFlangeFilletRadius;
    this.TopFlangeWidth = TopFlangeWidth;
    this.TopFlangeThickness = TopFlangeThickness;
    this.TopFlangeFilletRadius = TopFlangeFilletRadius;
    this.BottomFlangeEdgeRadius = BottomFlangeEdgeRadius;
    this.BottomFlangeSlope = BottomFlangeSlope;
    this.TopFlangeEdgeRadius = TopFlangeEdgeRadius;
    this.TopFlangeSlope = TopFlangeSlope;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let BottomFlangeWidth = tape[ptr++];
    let OverallDepth = tape[ptr++];
    let WebThickness = tape[ptr++];
    let BottomFlangeThickness = tape[ptr++];
    let BottomFlangeFilletRadius = tape[ptr++];
    let TopFlangeWidth = tape[ptr++];
    let TopFlangeThickness = tape[ptr++];
    let TopFlangeFilletRadius = tape[ptr++];
    let BottomFlangeEdgeRadius = tape[ptr++];
    let BottomFlangeSlope = tape[ptr++];
    let TopFlangeEdgeRadius = tape[ptr++];
    let TopFlangeSlope = tape[ptr++];
    return new IfcAsymmetricIShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, BottomFlangeWidth, OverallDepth, WebThickness, BottomFlangeThickness, BottomFlangeFilletRadius, TopFlangeWidth, TopFlangeThickness, TopFlangeFilletRadius, BottomFlangeEdgeRadius, BottomFlangeSlope, TopFlangeEdgeRadius, TopFlangeSlope);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.BottomFlangeWidth);
    ;
    args.push(this.OverallDepth);
    ;
    args.push(this.WebThickness);
    ;
    args.push(this.BottomFlangeThickness);
    ;
    args.push(this.BottomFlangeFilletRadius);
    ;
    args.push(this.TopFlangeWidth);
    ;
    args.push(this.TopFlangeThickness);
    ;
    args.push(this.TopFlangeFilletRadius);
    ;
    args.push(this.BottomFlangeEdgeRadius);
    ;
    args.push(this.BottomFlangeSlope);
    ;
    args.push(this.TopFlangeEdgeRadius);
    ;
    args.push(this.TopFlangeSlope);
    ;
    return args;
  }
};
var IfcAudioVisualAppliance = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAudioVisualAppliance(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAudioVisualApplianceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcAudioVisualApplianceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcAxis1Placement = class {
  constructor(expressID, type, Location, Axis) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Axis = Axis;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Axis = tape[ptr++];
    return new IfcAxis1Placement(expressID, type, Location, Axis);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Axis);
    ;
    return args;
  }
};
var IfcAxis2Placement2D = class {
  constructor(expressID, type, Location, RefDirection) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.RefDirection = RefDirection;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let RefDirection = tape[ptr++];
    return new IfcAxis2Placement2D(expressID, type, Location, RefDirection);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.RefDirection);
    ;
    return args;
  }
};
var IfcAxis2Placement3D = class {
  constructor(expressID, type, Location, Axis, RefDirection) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Axis = Axis;
    this.RefDirection = RefDirection;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Axis = tape[ptr++];
    let RefDirection = tape[ptr++];
    return new IfcAxis2Placement3D(expressID, type, Location, Axis, RefDirection);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Axis);
    ;
    args.push(this.RefDirection);
    ;
    return args;
  }
};
var IfcBSplineCurve = class {
  constructor(expressID, type, Degree, ControlPointsList, CurveForm, ClosedCurve, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.Degree = Degree;
    this.ControlPointsList = ControlPointsList;
    this.CurveForm = CurveForm;
    this.ClosedCurve = ClosedCurve;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Degree = tape[ptr++];
    let ControlPointsList = tape[ptr++];
    let CurveForm = tape[ptr++];
    let ClosedCurve = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcBSplineCurve(expressID, type, Degree, ControlPointsList, CurveForm, ClosedCurve, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.Degree);
    ;
    args.push(this.ControlPointsList);
    ;
    args.push(this.CurveForm);
    ;
    args.push(this.ClosedCurve);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcBSplineCurveWithKnots = class {
  constructor(expressID, type, Degree, ControlPointsList, CurveForm, ClosedCurve, SelfIntersect, KnotMultiplicities, Knots, KnotSpec) {
    this.expressID = expressID;
    this.type = type;
    this.Degree = Degree;
    this.ControlPointsList = ControlPointsList;
    this.CurveForm = CurveForm;
    this.ClosedCurve = ClosedCurve;
    this.SelfIntersect = SelfIntersect;
    this.KnotMultiplicities = KnotMultiplicities;
    this.Knots = Knots;
    this.KnotSpec = KnotSpec;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Degree = tape[ptr++];
    let ControlPointsList = tape[ptr++];
    let CurveForm = tape[ptr++];
    let ClosedCurve = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    let KnotMultiplicities = tape[ptr++];
    let Knots = tape[ptr++];
    let KnotSpec = tape[ptr++];
    return new IfcBSplineCurveWithKnots(expressID, type, Degree, ControlPointsList, CurveForm, ClosedCurve, SelfIntersect, KnotMultiplicities, Knots, KnotSpec);
  }
  ToTape() {
    let args = [];
    args.push(this.Degree);
    ;
    args.push(this.ControlPointsList);
    ;
    args.push(this.CurveForm);
    ;
    args.push(this.ClosedCurve);
    ;
    args.push(this.SelfIntersect);
    ;
    args.push(this.KnotMultiplicities);
    ;
    args.push(this.Knots);
    ;
    args.push(this.KnotSpec);
    ;
    return args;
  }
};
var IfcBSplineSurface = class {
  constructor(expressID, type, UDegree, VDegree, ControlPointsList, SurfaceForm, UClosed, VClosed, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.UDegree = UDegree;
    this.VDegree = VDegree;
    this.ControlPointsList = ControlPointsList;
    this.SurfaceForm = SurfaceForm;
    this.UClosed = UClosed;
    this.VClosed = VClosed;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let UDegree = tape[ptr++];
    let VDegree = tape[ptr++];
    let ControlPointsList = tape[ptr++];
    let SurfaceForm = tape[ptr++];
    let UClosed = tape[ptr++];
    let VClosed = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcBSplineSurface(expressID, type, UDegree, VDegree, ControlPointsList, SurfaceForm, UClosed, VClosed, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.UDegree);
    ;
    args.push(this.VDegree);
    ;
    args.push(this.ControlPointsList);
    ;
    args.push(this.SurfaceForm);
    ;
    args.push(this.UClosed);
    ;
    args.push(this.VClosed);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcBSplineSurfaceWithKnots = class {
  constructor(expressID, type, UDegree, VDegree, ControlPointsList, SurfaceForm, UClosed, VClosed, SelfIntersect, UMultiplicities, VMultiplicities, UKnots, VKnots, KnotSpec) {
    this.expressID = expressID;
    this.type = type;
    this.UDegree = UDegree;
    this.VDegree = VDegree;
    this.ControlPointsList = ControlPointsList;
    this.SurfaceForm = SurfaceForm;
    this.UClosed = UClosed;
    this.VClosed = VClosed;
    this.SelfIntersect = SelfIntersect;
    this.UMultiplicities = UMultiplicities;
    this.VMultiplicities = VMultiplicities;
    this.UKnots = UKnots;
    this.VKnots = VKnots;
    this.KnotSpec = KnotSpec;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let UDegree = tape[ptr++];
    let VDegree = tape[ptr++];
    let ControlPointsList = tape[ptr++];
    let SurfaceForm = tape[ptr++];
    let UClosed = tape[ptr++];
    let VClosed = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    let UMultiplicities = tape[ptr++];
    let VMultiplicities = tape[ptr++];
    let UKnots = tape[ptr++];
    let VKnots = tape[ptr++];
    let KnotSpec = tape[ptr++];
    return new IfcBSplineSurfaceWithKnots(expressID, type, UDegree, VDegree, ControlPointsList, SurfaceForm, UClosed, VClosed, SelfIntersect, UMultiplicities, VMultiplicities, UKnots, VKnots, KnotSpec);
  }
  ToTape() {
    let args = [];
    args.push(this.UDegree);
    ;
    args.push(this.VDegree);
    ;
    args.push(this.ControlPointsList);
    ;
    args.push(this.SurfaceForm);
    ;
    args.push(this.UClosed);
    ;
    args.push(this.VClosed);
    ;
    args.push(this.SelfIntersect);
    ;
    args.push(this.UMultiplicities);
    ;
    args.push(this.VMultiplicities);
    ;
    args.push(this.UKnots);
    ;
    args.push(this.VKnots);
    ;
    args.push(this.KnotSpec);
    ;
    return args;
  }
};
var IfcBeam = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBeam(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBeamStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBeamStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBeamType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBeamType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBearing = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBearing(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBearingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBearingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBlobTexture = class {
  constructor(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter, RasterFormat, RasterCode) {
    this.expressID = expressID;
    this.type = type;
    this.RepeatS = RepeatS;
    this.RepeatT = RepeatT;
    this.Mode = Mode;
    this.TextureTransform = TextureTransform;
    this.Parameter = Parameter;
    this.RasterFormat = RasterFormat;
    this.RasterCode = RasterCode;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RepeatS = tape[ptr++];
    let RepeatT = tape[ptr++];
    let Mode = tape[ptr++];
    let TextureTransform = tape[ptr++];
    let Parameter = tape[ptr++];
    let RasterFormat = tape[ptr++];
    let RasterCode = tape[ptr++];
    return new IfcBlobTexture(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter, RasterFormat, RasterCode);
  }
  ToTape() {
    let args = [];
    args.push(this.RepeatS);
    ;
    args.push(this.RepeatT);
    ;
    args.push(this.Mode);
    ;
    args.push(this.TextureTransform);
    ;
    args.push(this.Parameter);
    ;
    args.push(this.RasterFormat);
    ;
    args.push(this.RasterCode);
    ;
    return args;
  }
};
var IfcBlock = class {
  constructor(expressID, type, Position, XLength, YLength, ZLength) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.XLength = XLength;
    this.YLength = YLength;
    this.ZLength = ZLength;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let XLength = tape[ptr++];
    let YLength = tape[ptr++];
    let ZLength = tape[ptr++];
    return new IfcBlock(expressID, type, Position, XLength, YLength, ZLength);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.XLength);
    ;
    args.push(this.YLength);
    ;
    args.push(this.ZLength);
    ;
    return args;
  }
};
var IfcBoiler = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBoiler(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBoilerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBoilerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBooleanClippingResult = class {
  constructor(expressID, type, Operator, FirstOperand, SecondOperand) {
    this.expressID = expressID;
    this.type = type;
    this.Operator = Operator;
    this.FirstOperand = FirstOperand;
    this.SecondOperand = SecondOperand;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Operator = tape[ptr++];
    let FirstOperand = tape[ptr++];
    let SecondOperand = tape[ptr++];
    return new IfcBooleanClippingResult(expressID, type, Operator, FirstOperand, SecondOperand);
  }
  ToTape() {
    let args = [];
    args.push(this.Operator);
    ;
    args.push(this.FirstOperand);
    ;
    args.push(this.SecondOperand);
    ;
    return args;
  }
};
var IfcBooleanResult = class {
  constructor(expressID, type, Operator, FirstOperand, SecondOperand) {
    this.expressID = expressID;
    this.type = type;
    this.Operator = Operator;
    this.FirstOperand = FirstOperand;
    this.SecondOperand = SecondOperand;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Operator = tape[ptr++];
    let FirstOperand = tape[ptr++];
    let SecondOperand = tape[ptr++];
    return new IfcBooleanResult(expressID, type, Operator, FirstOperand, SecondOperand);
  }
  ToTape() {
    let args = [];
    args.push(this.Operator);
    ;
    args.push(this.FirstOperand);
    ;
    args.push(this.SecondOperand);
    ;
    return args;
  }
};
var IfcBoundaryCondition = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcBoundaryCondition(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcBoundaryCurve = class {
  constructor(expressID, type, Segments, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.Segments = Segments;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Segments = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcBoundaryCurve(expressID, type, Segments, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.Segments);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcBoundaryEdgeCondition = class {
  constructor(expressID, type, Name, TranslationalStiffnessByLengthX, TranslationalStiffnessByLengthY, TranslationalStiffnessByLengthZ, RotationalStiffnessByLengthX, RotationalStiffnessByLengthY, RotationalStiffnessByLengthZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.TranslationalStiffnessByLengthX = TranslationalStiffnessByLengthX;
    this.TranslationalStiffnessByLengthY = TranslationalStiffnessByLengthY;
    this.TranslationalStiffnessByLengthZ = TranslationalStiffnessByLengthZ;
    this.RotationalStiffnessByLengthX = RotationalStiffnessByLengthX;
    this.RotationalStiffnessByLengthY = RotationalStiffnessByLengthY;
    this.RotationalStiffnessByLengthZ = RotationalStiffnessByLengthZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let TranslationalStiffnessByLengthX = tape[ptr++];
    let TranslationalStiffnessByLengthY = tape[ptr++];
    let TranslationalStiffnessByLengthZ = tape[ptr++];
    let RotationalStiffnessByLengthX = tape[ptr++];
    let RotationalStiffnessByLengthY = tape[ptr++];
    let RotationalStiffnessByLengthZ = tape[ptr++];
    return new IfcBoundaryEdgeCondition(expressID, type, Name, TranslationalStiffnessByLengthX, TranslationalStiffnessByLengthY, TranslationalStiffnessByLengthZ, RotationalStiffnessByLengthX, RotationalStiffnessByLengthY, RotationalStiffnessByLengthZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.TranslationalStiffnessByLengthX);
    ;
    args.push(this.TranslationalStiffnessByLengthY);
    ;
    args.push(this.TranslationalStiffnessByLengthZ);
    ;
    args.push(this.RotationalStiffnessByLengthX);
    ;
    args.push(this.RotationalStiffnessByLengthY);
    ;
    args.push(this.RotationalStiffnessByLengthZ);
    ;
    return args;
  }
};
var IfcBoundaryFaceCondition = class {
  constructor(expressID, type, Name, TranslationalStiffnessByAreaX, TranslationalStiffnessByAreaY, TranslationalStiffnessByAreaZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.TranslationalStiffnessByAreaX = TranslationalStiffnessByAreaX;
    this.TranslationalStiffnessByAreaY = TranslationalStiffnessByAreaY;
    this.TranslationalStiffnessByAreaZ = TranslationalStiffnessByAreaZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let TranslationalStiffnessByAreaX = tape[ptr++];
    let TranslationalStiffnessByAreaY = tape[ptr++];
    let TranslationalStiffnessByAreaZ = tape[ptr++];
    return new IfcBoundaryFaceCondition(expressID, type, Name, TranslationalStiffnessByAreaX, TranslationalStiffnessByAreaY, TranslationalStiffnessByAreaZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.TranslationalStiffnessByAreaX);
    ;
    args.push(this.TranslationalStiffnessByAreaY);
    ;
    args.push(this.TranslationalStiffnessByAreaZ);
    ;
    return args;
  }
};
var IfcBoundaryNodeCondition = class {
  constructor(expressID, type, Name, TranslationalStiffnessX, TranslationalStiffnessY, TranslationalStiffnessZ, RotationalStiffnessX, RotationalStiffnessY, RotationalStiffnessZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.TranslationalStiffnessX = TranslationalStiffnessX;
    this.TranslationalStiffnessY = TranslationalStiffnessY;
    this.TranslationalStiffnessZ = TranslationalStiffnessZ;
    this.RotationalStiffnessX = RotationalStiffnessX;
    this.RotationalStiffnessY = RotationalStiffnessY;
    this.RotationalStiffnessZ = RotationalStiffnessZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let TranslationalStiffnessX = tape[ptr++];
    let TranslationalStiffnessY = tape[ptr++];
    let TranslationalStiffnessZ = tape[ptr++];
    let RotationalStiffnessX = tape[ptr++];
    let RotationalStiffnessY = tape[ptr++];
    let RotationalStiffnessZ = tape[ptr++];
    return new IfcBoundaryNodeCondition(expressID, type, Name, TranslationalStiffnessX, TranslationalStiffnessY, TranslationalStiffnessZ, RotationalStiffnessX, RotationalStiffnessY, RotationalStiffnessZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.TranslationalStiffnessX);
    ;
    args.push(this.TranslationalStiffnessY);
    ;
    args.push(this.TranslationalStiffnessZ);
    ;
    args.push(this.RotationalStiffnessX);
    ;
    args.push(this.RotationalStiffnessY);
    ;
    args.push(this.RotationalStiffnessZ);
    ;
    return args;
  }
};
var IfcBoundaryNodeConditionWarping = class {
  constructor(expressID, type, Name, TranslationalStiffnessX, TranslationalStiffnessY, TranslationalStiffnessZ, RotationalStiffnessX, RotationalStiffnessY, RotationalStiffnessZ, WarpingStiffness) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.TranslationalStiffnessX = TranslationalStiffnessX;
    this.TranslationalStiffnessY = TranslationalStiffnessY;
    this.TranslationalStiffnessZ = TranslationalStiffnessZ;
    this.RotationalStiffnessX = RotationalStiffnessX;
    this.RotationalStiffnessY = RotationalStiffnessY;
    this.RotationalStiffnessZ = RotationalStiffnessZ;
    this.WarpingStiffness = WarpingStiffness;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let TranslationalStiffnessX = tape[ptr++];
    let TranslationalStiffnessY = tape[ptr++];
    let TranslationalStiffnessZ = tape[ptr++];
    let RotationalStiffnessX = tape[ptr++];
    let RotationalStiffnessY = tape[ptr++];
    let RotationalStiffnessZ = tape[ptr++];
    let WarpingStiffness = tape[ptr++];
    return new IfcBoundaryNodeConditionWarping(expressID, type, Name, TranslationalStiffnessX, TranslationalStiffnessY, TranslationalStiffnessZ, RotationalStiffnessX, RotationalStiffnessY, RotationalStiffnessZ, WarpingStiffness);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.TranslationalStiffnessX);
    ;
    args.push(this.TranslationalStiffnessY);
    ;
    args.push(this.TranslationalStiffnessZ);
    ;
    args.push(this.RotationalStiffnessX);
    ;
    args.push(this.RotationalStiffnessY);
    ;
    args.push(this.RotationalStiffnessZ);
    ;
    args.push(this.WarpingStiffness);
    ;
    return args;
  }
};
var IfcBoundedCurve = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcBoundedCurve(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcBoundedSurface = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcBoundedSurface(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcBoundingBox = class {
  constructor(expressID, type, Corner, XDim, YDim, ZDim) {
    this.expressID = expressID;
    this.type = type;
    this.Corner = Corner;
    this.XDim = XDim;
    this.YDim = YDim;
    this.ZDim = ZDim;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Corner = tape[ptr++];
    let XDim = tape[ptr++];
    let YDim = tape[ptr++];
    let ZDim = tape[ptr++];
    return new IfcBoundingBox(expressID, type, Corner, XDim, YDim, ZDim);
  }
  ToTape() {
    let args = [];
    args.push(this.Corner);
    ;
    args.push(this.XDim);
    ;
    args.push(this.YDim);
    ;
    args.push(this.ZDim);
    ;
    return args;
  }
};
var IfcBoxedHalfSpace = class {
  constructor(expressID, type, BaseSurface, AgreementFlag, Enclosure) {
    this.expressID = expressID;
    this.type = type;
    this.BaseSurface = BaseSurface;
    this.AgreementFlag = AgreementFlag;
    this.Enclosure = Enclosure;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BaseSurface = tape[ptr++];
    let AgreementFlag = tape[ptr++];
    let Enclosure = tape[ptr++];
    return new IfcBoxedHalfSpace(expressID, type, BaseSurface, AgreementFlag, Enclosure);
  }
  ToTape() {
    let args = [];
    args.push(this.BaseSurface);
    ;
    args.push(this.AgreementFlag);
    ;
    args.push(this.Enclosure);
    ;
    return args;
  }
};
var IfcBridge = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBridge(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBridgePart = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBridgePart(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBuilding = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, ElevationOfRefHeight, ElevationOfTerrain, BuildingAddress) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
    this.ElevationOfRefHeight = ElevationOfRefHeight;
    this.ElevationOfTerrain = ElevationOfTerrain;
    this.BuildingAddress = BuildingAddress;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    let ElevationOfRefHeight = tape[ptr++];
    let ElevationOfTerrain = tape[ptr++];
    let BuildingAddress = tape[ptr++];
    return new IfcBuilding(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, ElevationOfRefHeight, ElevationOfTerrain, BuildingAddress);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    args.push(this.ElevationOfRefHeight);
    ;
    args.push(this.ElevationOfTerrain);
    ;
    args.push(this.BuildingAddress);
    ;
    return args;
  }
};
var IfcBuildingElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcBuildingElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcBuildingElementPart = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBuildingElementPart(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBuildingElementPartType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBuildingElementPartType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBuildingElementProxy = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBuildingElementProxy(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBuildingElementProxyType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBuildingElementProxyType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBuildingElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcBuildingElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcBuildingStorey = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, Elevation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
    this.Elevation = Elevation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    let Elevation = tape[ptr++];
    return new IfcBuildingStorey(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, Elevation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    args.push(this.Elevation);
    ;
    return args;
  }
};
var IfcBuildingSystem = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, LongName) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.PredefinedType = PredefinedType;
    this.LongName = LongName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let LongName = tape[ptr++];
    return new IfcBuildingSystem(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, LongName);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.LongName);
    ;
    return args;
  }
};
var IfcBurner = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBurner(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcBurnerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcBurnerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Depth, Width, WallThickness, Girth, InternalFilletRadius) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Depth = Depth;
    this.Width = Width;
    this.WallThickness = WallThickness;
    this.Girth = Girth;
    this.InternalFilletRadius = InternalFilletRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Depth = tape[ptr++];
    let Width = tape[ptr++];
    let WallThickness = tape[ptr++];
    let Girth = tape[ptr++];
    let InternalFilletRadius = tape[ptr++];
    return new IfcCShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, Depth, Width, WallThickness, Girth, InternalFilletRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Depth);
    ;
    args.push(this.Width);
    ;
    args.push(this.WallThickness);
    ;
    args.push(this.Girth);
    ;
    args.push(this.InternalFilletRadius);
    ;
    return args;
  }
};
var IfcCableCarrierFitting = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableCarrierFitting(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableCarrierFittingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableCarrierFittingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableCarrierSegment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableCarrierSegment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableCarrierSegmentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableCarrierSegmentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableFitting = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableFitting(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableFittingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableFittingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableSegment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableSegment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCableSegmentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCableSegmentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCaissonFoundation = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCaissonFoundation(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCaissonFoundationType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCaissonFoundationType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCartesianPoint = class {
  constructor(expressID, type, Coordinates) {
    this.expressID = expressID;
    this.type = type;
    this.Coordinates = Coordinates;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Coordinates = tape[ptr++];
    return new IfcCartesianPoint(expressID, type, Coordinates);
  }
  ToTape() {
    let args = [];
    args.push(this.Coordinates);
    ;
    return args;
  }
};
var IfcCartesianPointList = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcCartesianPointList(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcCartesianPointList2D = class {
  constructor(expressID, type, CoordList, TagList) {
    this.expressID = expressID;
    this.type = type;
    this.CoordList = CoordList;
    this.TagList = TagList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CoordList = tape[ptr++];
    let TagList = tape[ptr++];
    return new IfcCartesianPointList2D(expressID, type, CoordList, TagList);
  }
  ToTape() {
    let args = [];
    args.push(this.CoordList);
    ;
    args.push(this.TagList);
    ;
    return args;
  }
};
var IfcCartesianPointList3D = class {
  constructor(expressID, type, CoordList, TagList) {
    this.expressID = expressID;
    this.type = type;
    this.CoordList = CoordList;
    this.TagList = TagList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CoordList = tape[ptr++];
    let TagList = tape[ptr++];
    return new IfcCartesianPointList3D(expressID, type, CoordList, TagList);
  }
  ToTape() {
    let args = [];
    args.push(this.CoordList);
    ;
    args.push(this.TagList);
    ;
    return args;
  }
};
var IfcCartesianTransformationOperator = class {
  constructor(expressID, type, Axis1, Axis2, LocalOrigin, Scale) {
    this.expressID = expressID;
    this.type = type;
    this.Axis1 = Axis1;
    this.Axis2 = Axis2;
    this.LocalOrigin = LocalOrigin;
    this.Scale = Scale;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Axis1 = tape[ptr++];
    let Axis2 = tape[ptr++];
    let LocalOrigin = tape[ptr++];
    let Scale = tape[ptr++];
    return new IfcCartesianTransformationOperator(expressID, type, Axis1, Axis2, LocalOrigin, Scale);
  }
  ToTape() {
    let args = [];
    args.push(this.Axis1);
    ;
    args.push(this.Axis2);
    ;
    args.push(this.LocalOrigin);
    ;
    args.push(this.Scale);
    ;
    return args;
  }
};
var IfcCartesianTransformationOperator2D = class {
  constructor(expressID, type, Axis1, Axis2, LocalOrigin, Scale) {
    this.expressID = expressID;
    this.type = type;
    this.Axis1 = Axis1;
    this.Axis2 = Axis2;
    this.LocalOrigin = LocalOrigin;
    this.Scale = Scale;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Axis1 = tape[ptr++];
    let Axis2 = tape[ptr++];
    let LocalOrigin = tape[ptr++];
    let Scale = tape[ptr++];
    return new IfcCartesianTransformationOperator2D(expressID, type, Axis1, Axis2, LocalOrigin, Scale);
  }
  ToTape() {
    let args = [];
    args.push(this.Axis1);
    ;
    args.push(this.Axis2);
    ;
    args.push(this.LocalOrigin);
    ;
    args.push(this.Scale);
    ;
    return args;
  }
};
var IfcCartesianTransformationOperator2DnonUniform = class {
  constructor(expressID, type, Axis1, Axis2, LocalOrigin, Scale, Scale2) {
    this.expressID = expressID;
    this.type = type;
    this.Axis1 = Axis1;
    this.Axis2 = Axis2;
    this.LocalOrigin = LocalOrigin;
    this.Scale = Scale;
    this.Scale2 = Scale2;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Axis1 = tape[ptr++];
    let Axis2 = tape[ptr++];
    let LocalOrigin = tape[ptr++];
    let Scale = tape[ptr++];
    let Scale2 = tape[ptr++];
    return new IfcCartesianTransformationOperator2DnonUniform(expressID, type, Axis1, Axis2, LocalOrigin, Scale, Scale2);
  }
  ToTape() {
    let args = [];
    args.push(this.Axis1);
    ;
    args.push(this.Axis2);
    ;
    args.push(this.LocalOrigin);
    ;
    args.push(this.Scale);
    ;
    args.push(this.Scale2);
    ;
    return args;
  }
};
var IfcCartesianTransformationOperator3D = class {
  constructor(expressID, type, Axis1, Axis2, LocalOrigin, Scale, Axis3) {
    this.expressID = expressID;
    this.type = type;
    this.Axis1 = Axis1;
    this.Axis2 = Axis2;
    this.LocalOrigin = LocalOrigin;
    this.Scale = Scale;
    this.Axis3 = Axis3;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Axis1 = tape[ptr++];
    let Axis2 = tape[ptr++];
    let LocalOrigin = tape[ptr++];
    let Scale = tape[ptr++];
    let Axis3 = tape[ptr++];
    return new IfcCartesianTransformationOperator3D(expressID, type, Axis1, Axis2, LocalOrigin, Scale, Axis3);
  }
  ToTape() {
    let args = [];
    args.push(this.Axis1);
    ;
    args.push(this.Axis2);
    ;
    args.push(this.LocalOrigin);
    ;
    args.push(this.Scale);
    ;
    args.push(this.Axis3);
    ;
    return args;
  }
};
var IfcCartesianTransformationOperator3DnonUniform = class {
  constructor(expressID, type, Axis1, Axis2, LocalOrigin, Scale, Axis3, Scale2, Scale3) {
    this.expressID = expressID;
    this.type = type;
    this.Axis1 = Axis1;
    this.Axis2 = Axis2;
    this.LocalOrigin = LocalOrigin;
    this.Scale = Scale;
    this.Axis3 = Axis3;
    this.Scale2 = Scale2;
    this.Scale3 = Scale3;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Axis1 = tape[ptr++];
    let Axis2 = tape[ptr++];
    let LocalOrigin = tape[ptr++];
    let Scale = tape[ptr++];
    let Axis3 = tape[ptr++];
    let Scale2 = tape[ptr++];
    let Scale3 = tape[ptr++];
    return new IfcCartesianTransformationOperator3DnonUniform(expressID, type, Axis1, Axis2, LocalOrigin, Scale, Axis3, Scale2, Scale3);
  }
  ToTape() {
    let args = [];
    args.push(this.Axis1);
    ;
    args.push(this.Axis2);
    ;
    args.push(this.LocalOrigin);
    ;
    args.push(this.Scale);
    ;
    args.push(this.Axis3);
    ;
    args.push(this.Scale2);
    ;
    args.push(this.Scale3);
    ;
    return args;
  }
};
var IfcCenterLineProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Curve, Thickness) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Curve = Curve;
    this.Thickness = Thickness;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Curve = tape[ptr++];
    let Thickness = tape[ptr++];
    return new IfcCenterLineProfileDef(expressID, type, ProfileType, ProfileName, Curve, Thickness);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Curve);
    ;
    args.push(this.Thickness);
    ;
    return args;
  }
};
var IfcChiller = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcChiller(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcChillerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcChillerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcChimney = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcChimney(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcChimneyType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcChimneyType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCircle = class {
  constructor(expressID, type, Position, Radius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.Radius = Radius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    return new IfcCircle(expressID, type, Position, Radius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    return args;
  }
};
var IfcCircleHollowProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Radius, WallThickness) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Radius = Radius;
    this.WallThickness = WallThickness;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    let WallThickness = tape[ptr++];
    return new IfcCircleHollowProfileDef(expressID, type, ProfileType, ProfileName, Position, Radius, WallThickness);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    args.push(this.WallThickness);
    ;
    return args;
  }
};
var IfcCircleProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Radius) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Radius = Radius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    return new IfcCircleProfileDef(expressID, type, ProfileType, ProfileName, Position, Radius);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    return args;
  }
};
var IfcCircularArcSegment2D = class {
  constructor(expressID, type, StartPoint, StartDirection, SegmentLength, Radius, IsCCW) {
    this.expressID = expressID;
    this.type = type;
    this.StartPoint = StartPoint;
    this.StartDirection = StartDirection;
    this.SegmentLength = SegmentLength;
    this.Radius = Radius;
    this.IsCCW = IsCCW;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let StartPoint = tape[ptr++];
    let StartDirection = tape[ptr++];
    let SegmentLength = tape[ptr++];
    let Radius = tape[ptr++];
    let IsCCW = tape[ptr++];
    return new IfcCircularArcSegment2D(expressID, type, StartPoint, StartDirection, SegmentLength, Radius, IsCCW);
  }
  ToTape() {
    let args = [];
    args.push(this.StartPoint);
    ;
    args.push(this.StartDirection);
    ;
    args.push(this.SegmentLength);
    ;
    args.push(this.Radius);
    ;
    args.push(this.IsCCW);
    ;
    return args;
  }
};
var IfcCivilElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcCivilElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcCivilElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcCivilElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcClassification = class {
  constructor(expressID, type, Source, Edition, EditionDate, Name, Description, Location, ReferenceTokens) {
    this.expressID = expressID;
    this.type = type;
    this.Source = Source;
    this.Edition = Edition;
    this.EditionDate = EditionDate;
    this.Name = Name;
    this.Description = Description;
    this.Location = Location;
    this.ReferenceTokens = ReferenceTokens;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Source = tape[ptr++];
    let Edition = tape[ptr++];
    let EditionDate = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Location = tape[ptr++];
    let ReferenceTokens = tape[ptr++];
    return new IfcClassification(expressID, type, Source, Edition, EditionDate, Name, Description, Location, ReferenceTokens);
  }
  ToTape() {
    let args = [];
    args.push(this.Source);
    ;
    args.push(this.Edition);
    ;
    args.push(this.EditionDate);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Location);
    ;
    args.push(this.ReferenceTokens);
    ;
    return args;
  }
};
var IfcClassificationReference = class {
  constructor(expressID, type, Location, Identification, Name, ReferencedSource, Description, Sort) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
    this.ReferencedSource = ReferencedSource;
    this.Description = Description;
    this.Sort = Sort;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    let ReferencedSource = tape[ptr++];
    let Description = tape[ptr++];
    let Sort = tape[ptr++];
    return new IfcClassificationReference(expressID, type, Location, Identification, Name, ReferencedSource, Description, Sort);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    args.push(this.ReferencedSource);
    ;
    args.push(this.Description);
    ;
    args.push(this.Sort);
    ;
    return args;
  }
};
var IfcClosedShell = class {
  constructor(expressID, type, CfsFaces) {
    this.expressID = expressID;
    this.type = type;
    this.CfsFaces = CfsFaces;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CfsFaces = tape[ptr++];
    return new IfcClosedShell(expressID, type, CfsFaces);
  }
  ToTape() {
    let args = [];
    args.push(this.CfsFaces);
    ;
    return args;
  }
};
var IfcCoil = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCoil(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCoilType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCoilType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcColourRgb = class {
  constructor(expressID, type, Name, Red, Green, Blue) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Red = Red;
    this.Green = Green;
    this.Blue = Blue;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Red = tape[ptr++];
    let Green = tape[ptr++];
    let Blue = tape[ptr++];
    return new IfcColourRgb(expressID, type, Name, Red, Green, Blue);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Red);
    ;
    args.push(this.Green);
    ;
    args.push(this.Blue);
    ;
    return args;
  }
};
var IfcColourRgbList = class {
  constructor(expressID, type, ColourList) {
    this.expressID = expressID;
    this.type = type;
    this.ColourList = ColourList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ColourList = tape[ptr++];
    return new IfcColourRgbList(expressID, type, ColourList);
  }
  ToTape() {
    let args = [];
    args.push(this.ColourList);
    ;
    return args;
  }
};
var IfcColourSpecification = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcColourSpecification(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcColumn = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcColumn(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcColumnStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcColumnStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcColumnType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcColumnType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCommunicationsAppliance = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCommunicationsAppliance(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCommunicationsApplianceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCommunicationsApplianceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcComplexProperty = class {
  constructor(expressID, type, Name, Description, UsageName, HasProperties) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.UsageName = UsageName;
    this.HasProperties = HasProperties;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let UsageName = tape[ptr++];
    let HasProperties = tape[ptr++];
    return new IfcComplexProperty(expressID, type, Name, Description, UsageName, HasProperties);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.UsageName);
    ;
    args.push(this.HasProperties);
    ;
    return args;
  }
};
var IfcComplexPropertyTemplate = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, UsageName, TemplateType, HasPropertyTemplates) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.UsageName = UsageName;
    this.TemplateType = TemplateType;
    this.HasPropertyTemplates = HasPropertyTemplates;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let UsageName = tape[ptr++];
    let TemplateType = tape[ptr++];
    let HasPropertyTemplates = tape[ptr++];
    return new IfcComplexPropertyTemplate(expressID, type, GlobalId, OwnerHistory, Name, Description, UsageName, TemplateType, HasPropertyTemplates);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.UsageName);
    ;
    args.push(this.TemplateType);
    ;
    args.push(this.HasPropertyTemplates);
    ;
    return args;
  }
};
var IfcCompositeCurve = class {
  constructor(expressID, type, Segments, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.Segments = Segments;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Segments = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcCompositeCurve(expressID, type, Segments, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.Segments);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcCompositeCurveOnSurface = class {
  constructor(expressID, type, Segments, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.Segments = Segments;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Segments = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcCompositeCurveOnSurface(expressID, type, Segments, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.Segments);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcCompositeCurveSegment = class {
  constructor(expressID, type, Transition, SameSense, ParentCurve) {
    this.expressID = expressID;
    this.type = type;
    this.Transition = Transition;
    this.SameSense = SameSense;
    this.ParentCurve = ParentCurve;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Transition = tape[ptr++];
    let SameSense = tape[ptr++];
    let ParentCurve = tape[ptr++];
    return new IfcCompositeCurveSegment(expressID, type, Transition, SameSense, ParentCurve);
  }
  ToTape() {
    let args = [];
    args.push(this.Transition);
    ;
    args.push(this.SameSense);
    ;
    args.push(this.ParentCurve);
    ;
    return args;
  }
};
var IfcCompositeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Profiles, Label) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Profiles = Profiles;
    this.Label = Label;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Profiles = tape[ptr++];
    let Label = tape[ptr++];
    return new IfcCompositeProfileDef(expressID, type, ProfileType, ProfileName, Profiles, Label);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Profiles);
    ;
    args.push(this.Label);
    ;
    return args;
  }
};
var IfcCompressor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCompressor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCompressorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCompressorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCondenser = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCondenser(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCondenserType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCondenserType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConic = class {
  constructor(expressID, type, Position) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    return new IfcConic(expressID, type, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcConnectedFaceSet = class {
  constructor(expressID, type, CfsFaces) {
    this.expressID = expressID;
    this.type = type;
    this.CfsFaces = CfsFaces;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CfsFaces = tape[ptr++];
    return new IfcConnectedFaceSet(expressID, type, CfsFaces);
  }
  ToTape() {
    let args = [];
    args.push(this.CfsFaces);
    ;
    return args;
  }
};
var IfcConnectionCurveGeometry = class {
  constructor(expressID, type, CurveOnRelatingElement, CurveOnRelatedElement) {
    this.expressID = expressID;
    this.type = type;
    this.CurveOnRelatingElement = CurveOnRelatingElement;
    this.CurveOnRelatedElement = CurveOnRelatedElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CurveOnRelatingElement = tape[ptr++];
    let CurveOnRelatedElement = tape[ptr++];
    return new IfcConnectionCurveGeometry(expressID, type, CurveOnRelatingElement, CurveOnRelatedElement);
  }
  ToTape() {
    let args = [];
    args.push(this.CurveOnRelatingElement);
    ;
    args.push(this.CurveOnRelatedElement);
    ;
    return args;
  }
};
var IfcConnectionGeometry = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcConnectionGeometry(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcConnectionPointEccentricity = class {
  constructor(expressID, type, PointOnRelatingElement, PointOnRelatedElement, EccentricityInX, EccentricityInY, EccentricityInZ) {
    this.expressID = expressID;
    this.type = type;
    this.PointOnRelatingElement = PointOnRelatingElement;
    this.PointOnRelatedElement = PointOnRelatedElement;
    this.EccentricityInX = EccentricityInX;
    this.EccentricityInY = EccentricityInY;
    this.EccentricityInZ = EccentricityInZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let PointOnRelatingElement = tape[ptr++];
    let PointOnRelatedElement = tape[ptr++];
    let EccentricityInX = tape[ptr++];
    let EccentricityInY = tape[ptr++];
    let EccentricityInZ = tape[ptr++];
    return new IfcConnectionPointEccentricity(expressID, type, PointOnRelatingElement, PointOnRelatedElement, EccentricityInX, EccentricityInY, EccentricityInZ);
  }
  ToTape() {
    let args = [];
    args.push(this.PointOnRelatingElement);
    ;
    args.push(this.PointOnRelatedElement);
    ;
    args.push(this.EccentricityInX);
    ;
    args.push(this.EccentricityInY);
    ;
    args.push(this.EccentricityInZ);
    ;
    return args;
  }
};
var IfcConnectionPointGeometry = class {
  constructor(expressID, type, PointOnRelatingElement, PointOnRelatedElement) {
    this.expressID = expressID;
    this.type = type;
    this.PointOnRelatingElement = PointOnRelatingElement;
    this.PointOnRelatedElement = PointOnRelatedElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let PointOnRelatingElement = tape[ptr++];
    let PointOnRelatedElement = tape[ptr++];
    return new IfcConnectionPointGeometry(expressID, type, PointOnRelatingElement, PointOnRelatedElement);
  }
  ToTape() {
    let args = [];
    args.push(this.PointOnRelatingElement);
    ;
    args.push(this.PointOnRelatedElement);
    ;
    return args;
  }
};
var IfcConnectionSurfaceGeometry = class {
  constructor(expressID, type, SurfaceOnRelatingElement, SurfaceOnRelatedElement) {
    this.expressID = expressID;
    this.type = type;
    this.SurfaceOnRelatingElement = SurfaceOnRelatingElement;
    this.SurfaceOnRelatedElement = SurfaceOnRelatedElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SurfaceOnRelatingElement = tape[ptr++];
    let SurfaceOnRelatedElement = tape[ptr++];
    return new IfcConnectionSurfaceGeometry(expressID, type, SurfaceOnRelatingElement, SurfaceOnRelatedElement);
  }
  ToTape() {
    let args = [];
    args.push(this.SurfaceOnRelatingElement);
    ;
    args.push(this.SurfaceOnRelatedElement);
    ;
    return args;
  }
};
var IfcConnectionVolumeGeometry = class {
  constructor(expressID, type, VolumeOnRelatingElement, VolumeOnRelatedElement) {
    this.expressID = expressID;
    this.type = type;
    this.VolumeOnRelatingElement = VolumeOnRelatingElement;
    this.VolumeOnRelatedElement = VolumeOnRelatedElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let VolumeOnRelatingElement = tape[ptr++];
    let VolumeOnRelatedElement = tape[ptr++];
    return new IfcConnectionVolumeGeometry(expressID, type, VolumeOnRelatingElement, VolumeOnRelatedElement);
  }
  ToTape() {
    let args = [];
    args.push(this.VolumeOnRelatingElement);
    ;
    args.push(this.VolumeOnRelatedElement);
    ;
    return args;
  }
};
var IfcConstraint = class {
  constructor(expressID, type, Name, Description, ConstraintGrade, ConstraintSource, CreatingActor, CreationTime, UserDefinedGrade) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.ConstraintGrade = ConstraintGrade;
    this.ConstraintSource = ConstraintSource;
    this.CreatingActor = CreatingActor;
    this.CreationTime = CreationTime;
    this.UserDefinedGrade = UserDefinedGrade;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ConstraintGrade = tape[ptr++];
    let ConstraintSource = tape[ptr++];
    let CreatingActor = tape[ptr++];
    let CreationTime = tape[ptr++];
    let UserDefinedGrade = tape[ptr++];
    return new IfcConstraint(expressID, type, Name, Description, ConstraintGrade, ConstraintSource, CreatingActor, CreationTime, UserDefinedGrade);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ConstraintGrade);
    ;
    args.push(this.ConstraintSource);
    ;
    args.push(this.CreatingActor);
    ;
    args.push(this.CreationTime);
    ;
    args.push(this.UserDefinedGrade);
    ;
    return args;
  }
};
var IfcConstructionEquipmentResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcConstructionEquipmentResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConstructionEquipmentResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcConstructionEquipmentResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConstructionMaterialResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcConstructionMaterialResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConstructionMaterialResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcConstructionMaterialResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConstructionProductResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcConstructionProductResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConstructionProductResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcConstructionProductResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConstructionResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    return new IfcConstructionResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    return args;
  }
};
var IfcConstructionResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    return new IfcConstructionResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    return args;
  }
};
var IfcContext = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, Phase, RepresentationContexts, UnitsInContext) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.LongName = LongName;
    this.Phase = Phase;
    this.RepresentationContexts = RepresentationContexts;
    this.UnitsInContext = UnitsInContext;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let LongName = tape[ptr++];
    let Phase = tape[ptr++];
    let RepresentationContexts = tape[ptr++];
    let UnitsInContext = tape[ptr++];
    return new IfcContext(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, Phase, RepresentationContexts, UnitsInContext);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.LongName);
    ;
    args.push(this.Phase);
    ;
    args.push(this.RepresentationContexts);
    ;
    args.push(this.UnitsInContext);
    ;
    return args;
  }
};
var IfcContextDependentUnit = class {
  constructor(expressID, type, Dimensions, UnitType, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Dimensions = Dimensions;
    this.UnitType = UnitType;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Dimensions = tape[ptr++];
    let UnitType = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcContextDependentUnit(expressID, type, Dimensions, UnitType, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Dimensions);
    ;
    args.push(this.UnitType);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcControl = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    return new IfcControl(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    return args;
  }
};
var IfcController = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcController(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcControllerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcControllerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcConversionBasedUnit = class {
  constructor(expressID, type, Dimensions, UnitType, Name, ConversionFactor) {
    this.expressID = expressID;
    this.type = type;
    this.Dimensions = Dimensions;
    this.UnitType = UnitType;
    this.Name = Name;
    this.ConversionFactor = ConversionFactor;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Dimensions = tape[ptr++];
    let UnitType = tape[ptr++];
    let Name = tape[ptr++];
    let ConversionFactor = tape[ptr++];
    return new IfcConversionBasedUnit(expressID, type, Dimensions, UnitType, Name, ConversionFactor);
  }
  ToTape() {
    let args = [];
    args.push(this.Dimensions);
    ;
    args.push(this.UnitType);
    ;
    args.push(this.Name);
    ;
    args.push(this.ConversionFactor);
    ;
    return args;
  }
};
var IfcConversionBasedUnitWithOffset = class {
  constructor(expressID, type, Dimensions, UnitType, Name, ConversionFactor, ConversionOffset) {
    this.expressID = expressID;
    this.type = type;
    this.Dimensions = Dimensions;
    this.UnitType = UnitType;
    this.Name = Name;
    this.ConversionFactor = ConversionFactor;
    this.ConversionOffset = ConversionOffset;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Dimensions = tape[ptr++];
    let UnitType = tape[ptr++];
    let Name = tape[ptr++];
    let ConversionFactor = tape[ptr++];
    let ConversionOffset = tape[ptr++];
    return new IfcConversionBasedUnitWithOffset(expressID, type, Dimensions, UnitType, Name, ConversionFactor, ConversionOffset);
  }
  ToTape() {
    let args = [];
    args.push(this.Dimensions);
    ;
    args.push(this.UnitType);
    ;
    args.push(this.Name);
    ;
    args.push(this.ConversionFactor);
    ;
    args.push(this.ConversionOffset);
    ;
    return args;
  }
};
var IfcCooledBeam = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCooledBeam(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCooledBeamType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCooledBeamType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCoolingTower = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCoolingTower(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCoolingTowerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCoolingTowerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCoordinateOperation = class {
  constructor(expressID, type, SourceCRS, TargetCRS) {
    this.expressID = expressID;
    this.type = type;
    this.SourceCRS = SourceCRS;
    this.TargetCRS = TargetCRS;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SourceCRS = tape[ptr++];
    let TargetCRS = tape[ptr++];
    return new IfcCoordinateOperation(expressID, type, SourceCRS, TargetCRS);
  }
  ToTape() {
    let args = [];
    args.push(this.SourceCRS);
    ;
    args.push(this.TargetCRS);
    ;
    return args;
  }
};
var IfcCoordinateReferenceSystem = class {
  constructor(expressID, type, Name, Description, GeodeticDatum, VerticalDatum) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.GeodeticDatum = GeodeticDatum;
    this.VerticalDatum = VerticalDatum;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let GeodeticDatum = tape[ptr++];
    let VerticalDatum = tape[ptr++];
    return new IfcCoordinateReferenceSystem(expressID, type, Name, Description, GeodeticDatum, VerticalDatum);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.GeodeticDatum);
    ;
    args.push(this.VerticalDatum);
    ;
    return args;
  }
};
var IfcCostItem = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, CostValues, CostQuantities) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.PredefinedType = PredefinedType;
    this.CostValues = CostValues;
    this.CostQuantities = CostQuantities;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let CostValues = tape[ptr++];
    let CostQuantities = tape[ptr++];
    return new IfcCostItem(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, CostValues, CostQuantities);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.CostValues);
    ;
    args.push(this.CostQuantities);
    ;
    return args;
  }
};
var IfcCostSchedule = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, SubmittedOn, UpdateDate) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.PredefinedType = PredefinedType;
    this.Status = Status;
    this.SubmittedOn = SubmittedOn;
    this.UpdateDate = UpdateDate;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Status = tape[ptr++];
    let SubmittedOn = tape[ptr++];
    let UpdateDate = tape[ptr++];
    return new IfcCostSchedule(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, SubmittedOn, UpdateDate);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Status);
    ;
    args.push(this.SubmittedOn);
    ;
    args.push(this.UpdateDate);
    ;
    return args;
  }
};
var IfcCostValue = class {
  constructor(expressID, type, Name, Description, AppliedValue, UnitBasis, ApplicableDate, FixedUntilDate, Category, Condition, ArithmeticOperator, Components) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.AppliedValue = AppliedValue;
    this.UnitBasis = UnitBasis;
    this.ApplicableDate = ApplicableDate;
    this.FixedUntilDate = FixedUntilDate;
    this.Category = Category;
    this.Condition = Condition;
    this.ArithmeticOperator = ArithmeticOperator;
    this.Components = Components;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let AppliedValue = tape[ptr++];
    let UnitBasis = tape[ptr++];
    let ApplicableDate = tape[ptr++];
    let FixedUntilDate = tape[ptr++];
    let Category = tape[ptr++];
    let Condition = tape[ptr++];
    let ArithmeticOperator = tape[ptr++];
    let Components = tape[ptr++];
    return new IfcCostValue(expressID, type, Name, Description, AppliedValue, UnitBasis, ApplicableDate, FixedUntilDate, Category, Condition, ArithmeticOperator, Components);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.AppliedValue);
    ;
    args.push(this.UnitBasis);
    ;
    args.push(this.ApplicableDate);
    ;
    args.push(this.FixedUntilDate);
    ;
    args.push(this.Category);
    ;
    args.push(this.Condition);
    ;
    args.push(this.ArithmeticOperator);
    ;
    args.push(this.Components);
    ;
    return args;
  }
};
var IfcCovering = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCovering(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCoveringType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCoveringType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCrewResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCrewResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCrewResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCrewResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCsgPrimitive3D = class {
  constructor(expressID, type, Position) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    return new IfcCsgPrimitive3D(expressID, type, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcCsgSolid = class {
  constructor(expressID, type, TreeRootExpression) {
    this.expressID = expressID;
    this.type = type;
    this.TreeRootExpression = TreeRootExpression;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TreeRootExpression = tape[ptr++];
    return new IfcCsgSolid(expressID, type, TreeRootExpression);
  }
  ToTape() {
    let args = [];
    args.push(this.TreeRootExpression);
    ;
    return args;
  }
};
var IfcCurrencyRelationship = class {
  constructor(expressID, type, Name, Description, RelatingMonetaryUnit, RelatedMonetaryUnit, ExchangeRate, RateDateTime, RateSource) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingMonetaryUnit = RelatingMonetaryUnit;
    this.RelatedMonetaryUnit = RelatedMonetaryUnit;
    this.ExchangeRate = ExchangeRate;
    this.RateDateTime = RateDateTime;
    this.RateSource = RateSource;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingMonetaryUnit = tape[ptr++];
    let RelatedMonetaryUnit = tape[ptr++];
    let ExchangeRate = tape[ptr++];
    let RateDateTime = tape[ptr++];
    let RateSource = tape[ptr++];
    return new IfcCurrencyRelationship(expressID, type, Name, Description, RelatingMonetaryUnit, RelatedMonetaryUnit, ExchangeRate, RateDateTime, RateSource);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingMonetaryUnit);
    ;
    args.push(this.RelatedMonetaryUnit);
    ;
    args.push(this.ExchangeRate);
    ;
    args.push(this.RateDateTime);
    ;
    args.push(this.RateSource);
    ;
    return args;
  }
};
var IfcCurtainWall = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCurtainWall(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCurtainWallType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcCurtainWallType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcCurve = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcCurve(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcCurveBoundedPlane = class {
  constructor(expressID, type, BasisSurface, OuterBoundary, InnerBoundaries) {
    this.expressID = expressID;
    this.type = type;
    this.BasisSurface = BasisSurface;
    this.OuterBoundary = OuterBoundary;
    this.InnerBoundaries = InnerBoundaries;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisSurface = tape[ptr++];
    let OuterBoundary = tape[ptr++];
    let InnerBoundaries = tape[ptr++];
    return new IfcCurveBoundedPlane(expressID, type, BasisSurface, OuterBoundary, InnerBoundaries);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisSurface);
    ;
    args.push(this.OuterBoundary);
    ;
    args.push(this.InnerBoundaries);
    ;
    return args;
  }
};
var IfcCurveBoundedSurface = class {
  constructor(expressID, type, BasisSurface, Boundaries, ImplicitOuter) {
    this.expressID = expressID;
    this.type = type;
    this.BasisSurface = BasisSurface;
    this.Boundaries = Boundaries;
    this.ImplicitOuter = ImplicitOuter;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisSurface = tape[ptr++];
    let Boundaries = tape[ptr++];
    let ImplicitOuter = tape[ptr++];
    return new IfcCurveBoundedSurface(expressID, type, BasisSurface, Boundaries, ImplicitOuter);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisSurface);
    ;
    args.push(this.Boundaries);
    ;
    args.push(this.ImplicitOuter);
    ;
    return args;
  }
};
var IfcCurveSegment2D = class {
  constructor(expressID, type, StartPoint, StartDirection, SegmentLength) {
    this.expressID = expressID;
    this.type = type;
    this.StartPoint = StartPoint;
    this.StartDirection = StartDirection;
    this.SegmentLength = SegmentLength;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let StartPoint = tape[ptr++];
    let StartDirection = tape[ptr++];
    let SegmentLength = tape[ptr++];
    return new IfcCurveSegment2D(expressID, type, StartPoint, StartDirection, SegmentLength);
  }
  ToTape() {
    let args = [];
    args.push(this.StartPoint);
    ;
    args.push(this.StartDirection);
    ;
    args.push(this.SegmentLength);
    ;
    return args;
  }
};
var IfcCurveStyle = class {
  constructor(expressID, type, Name, CurveFont, CurveWidth, CurveColour, ModelOrDraughting) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.CurveFont = CurveFont;
    this.CurveWidth = CurveWidth;
    this.CurveColour = CurveColour;
    this.ModelOrDraughting = ModelOrDraughting;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let CurveFont = tape[ptr++];
    let CurveWidth = tape[ptr++];
    let CurveColour = tape[ptr++];
    let ModelOrDraughting = tape[ptr++];
    return new IfcCurveStyle(expressID, type, Name, CurveFont, CurveWidth, CurveColour, ModelOrDraughting);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.CurveFont);
    ;
    args.push(this.CurveWidth);
    ;
    args.push(this.CurveColour);
    ;
    args.push(this.ModelOrDraughting);
    ;
    return args;
  }
};
var IfcCurveStyleFont = class {
  constructor(expressID, type, Name, PatternList) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.PatternList = PatternList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let PatternList = tape[ptr++];
    return new IfcCurveStyleFont(expressID, type, Name, PatternList);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.PatternList);
    ;
    return args;
  }
};
var IfcCurveStyleFontAndScaling = class {
  constructor(expressID, type, Name, CurveFont, CurveFontScaling) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.CurveFont = CurveFont;
    this.CurveFontScaling = CurveFontScaling;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let CurveFont = tape[ptr++];
    let CurveFontScaling = tape[ptr++];
    return new IfcCurveStyleFontAndScaling(expressID, type, Name, CurveFont, CurveFontScaling);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.CurveFont);
    ;
    args.push(this.CurveFontScaling);
    ;
    return args;
  }
};
var IfcCurveStyleFontPattern = class {
  constructor(expressID, type, VisibleSegmentLength, InvisibleSegmentLength) {
    this.expressID = expressID;
    this.type = type;
    this.VisibleSegmentLength = VisibleSegmentLength;
    this.InvisibleSegmentLength = InvisibleSegmentLength;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let VisibleSegmentLength = tape[ptr++];
    let InvisibleSegmentLength = tape[ptr++];
    return new IfcCurveStyleFontPattern(expressID, type, VisibleSegmentLength, InvisibleSegmentLength);
  }
  ToTape() {
    let args = [];
    args.push(this.VisibleSegmentLength);
    ;
    args.push(this.InvisibleSegmentLength);
    ;
    return args;
  }
};
var IfcCylindricalSurface = class {
  constructor(expressID, type, Position, Radius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.Radius = Radius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    return new IfcCylindricalSurface(expressID, type, Position, Radius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    return args;
  }
};
var IfcDamper = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDamper(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDamperType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDamperType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDeepFoundation = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcDeepFoundation(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcDeepFoundationType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcDeepFoundationType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcDerivedProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, ParentProfile, Operator, Label) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.ParentProfile = ParentProfile;
    this.Operator = Operator;
    this.Label = Label;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let ParentProfile = tape[ptr++];
    let Operator = tape[ptr++];
    let Label = tape[ptr++];
    return new IfcDerivedProfileDef(expressID, type, ProfileType, ProfileName, ParentProfile, Operator, Label);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.ParentProfile);
    ;
    args.push(this.Operator);
    ;
    args.push(this.Label);
    ;
    return args;
  }
};
var IfcDerivedUnit = class {
  constructor(expressID, type, Elements, UnitType, UserDefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.Elements = Elements;
    this.UnitType = UnitType;
    this.UserDefinedType = UserDefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Elements = tape[ptr++];
    let UnitType = tape[ptr++];
    let UserDefinedType = tape[ptr++];
    return new IfcDerivedUnit(expressID, type, Elements, UnitType, UserDefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.Elements);
    ;
    args.push(this.UnitType);
    ;
    args.push(this.UserDefinedType);
    ;
    return args;
  }
};
var IfcDerivedUnitElement = class {
  constructor(expressID, type, Unit, Exponent) {
    this.expressID = expressID;
    this.type = type;
    this.Unit = Unit;
    this.Exponent = Exponent;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Unit = tape[ptr++];
    let Exponent = tape[ptr++];
    return new IfcDerivedUnitElement(expressID, type, Unit, Exponent);
  }
  ToTape() {
    let args = [];
    args.push(this.Unit);
    ;
    args.push(this.Exponent);
    ;
    return args;
  }
};
var IfcDimensionalExponents = class {
  constructor(expressID, type, LengthExponent, MassExponent, TimeExponent, ElectricCurrentExponent, ThermodynamicTemperatureExponent, AmountOfSubstanceExponent, LuminousIntensityExponent) {
    this.expressID = expressID;
    this.type = type;
    this.LengthExponent = LengthExponent;
    this.MassExponent = MassExponent;
    this.TimeExponent = TimeExponent;
    this.ElectricCurrentExponent = ElectricCurrentExponent;
    this.ThermodynamicTemperatureExponent = ThermodynamicTemperatureExponent;
    this.AmountOfSubstanceExponent = AmountOfSubstanceExponent;
    this.LuminousIntensityExponent = LuminousIntensityExponent;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let LengthExponent = tape[ptr++];
    let MassExponent = tape[ptr++];
    let TimeExponent = tape[ptr++];
    let ElectricCurrentExponent = tape[ptr++];
    let ThermodynamicTemperatureExponent = tape[ptr++];
    let AmountOfSubstanceExponent = tape[ptr++];
    let LuminousIntensityExponent = tape[ptr++];
    return new IfcDimensionalExponents(expressID, type, LengthExponent, MassExponent, TimeExponent, ElectricCurrentExponent, ThermodynamicTemperatureExponent, AmountOfSubstanceExponent, LuminousIntensityExponent);
  }
  ToTape() {
    let args = [];
    args.push(this.LengthExponent);
    ;
    args.push(this.MassExponent);
    ;
    args.push(this.TimeExponent);
    ;
    args.push(this.ElectricCurrentExponent);
    ;
    args.push(this.ThermodynamicTemperatureExponent);
    ;
    args.push(this.AmountOfSubstanceExponent);
    ;
    args.push(this.LuminousIntensityExponent);
    ;
    return args;
  }
};
var IfcDirection = class {
  constructor(expressID, type, DirectionRatios) {
    this.expressID = expressID;
    this.type = type;
    this.DirectionRatios = DirectionRatios;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let DirectionRatios = tape[ptr++];
    return new IfcDirection(expressID, type, DirectionRatios);
  }
  ToTape() {
    let args = [];
    args.push(this.DirectionRatios);
    ;
    return args;
  }
};
var IfcDiscreteAccessory = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDiscreteAccessory(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDiscreteAccessoryType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDiscreteAccessoryType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDistanceExpression = class {
  constructor(expressID, type, DistanceAlong, OffsetLateral, OffsetVertical, OffsetLongitudinal, AlongHorizontal) {
    this.expressID = expressID;
    this.type = type;
    this.DistanceAlong = DistanceAlong;
    this.OffsetLateral = OffsetLateral;
    this.OffsetVertical = OffsetVertical;
    this.OffsetLongitudinal = OffsetLongitudinal;
    this.AlongHorizontal = AlongHorizontal;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let DistanceAlong = tape[ptr++];
    let OffsetLateral = tape[ptr++];
    let OffsetVertical = tape[ptr++];
    let OffsetLongitudinal = tape[ptr++];
    let AlongHorizontal = tape[ptr++];
    return new IfcDistanceExpression(expressID, type, DistanceAlong, OffsetLateral, OffsetVertical, OffsetLongitudinal, AlongHorizontal);
  }
  ToTape() {
    let args = [];
    args.push(this.DistanceAlong);
    ;
    args.push(this.OffsetLateral);
    ;
    args.push(this.OffsetVertical);
    ;
    args.push(this.OffsetLongitudinal);
    ;
    args.push(this.AlongHorizontal);
    ;
    return args;
  }
};
var IfcDistributionChamberElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDistributionChamberElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDistributionChamberElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDistributionChamberElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDistributionCircuit = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.LongName = LongName;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let LongName = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDistributionCircuit(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.LongName);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDistributionControlElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcDistributionControlElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcDistributionControlElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcDistributionControlElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcDistributionElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcDistributionElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcDistributionElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcDistributionElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcDistributionFlowElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcDistributionFlowElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcDistributionFlowElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcDistributionFlowElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcDistributionPort = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, FlowDirection, PredefinedType, SystemType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.FlowDirection = FlowDirection;
    this.PredefinedType = PredefinedType;
    this.SystemType = SystemType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let FlowDirection = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let SystemType = tape[ptr++];
    return new IfcDistributionPort(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, FlowDirection, PredefinedType, SystemType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.FlowDirection);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.SystemType);
    ;
    return args;
  }
};
var IfcDistributionSystem = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.LongName = LongName;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let LongName = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDistributionSystem(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.LongName);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDocumentInformation = class {
  constructor(expressID, type, Identification, Name, Description, Location, Purpose, IntendedUse, Scope, Revision, DocumentOwner, Editors, CreationTime, LastRevisionTime, ElectronicFormat, ValidFrom, ValidUntil, Confidentiality, Status) {
    this.expressID = expressID;
    this.type = type;
    this.Identification = Identification;
    this.Name = Name;
    this.Description = Description;
    this.Location = Location;
    this.Purpose = Purpose;
    this.IntendedUse = IntendedUse;
    this.Scope = Scope;
    this.Revision = Revision;
    this.DocumentOwner = DocumentOwner;
    this.Editors = Editors;
    this.CreationTime = CreationTime;
    this.LastRevisionTime = LastRevisionTime;
    this.ElectronicFormat = ElectronicFormat;
    this.ValidFrom = ValidFrom;
    this.ValidUntil = ValidUntil;
    this.Confidentiality = Confidentiality;
    this.Status = Status;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Location = tape[ptr++];
    let Purpose = tape[ptr++];
    let IntendedUse = tape[ptr++];
    let Scope = tape[ptr++];
    let Revision = tape[ptr++];
    let DocumentOwner = tape[ptr++];
    let Editors = tape[ptr++];
    let CreationTime = tape[ptr++];
    let LastRevisionTime = tape[ptr++];
    let ElectronicFormat = tape[ptr++];
    let ValidFrom = tape[ptr++];
    let ValidUntil = tape[ptr++];
    let Confidentiality = tape[ptr++];
    let Status = tape[ptr++];
    return new IfcDocumentInformation(expressID, type, Identification, Name, Description, Location, Purpose, IntendedUse, Scope, Revision, DocumentOwner, Editors, CreationTime, LastRevisionTime, ElectronicFormat, ValidFrom, ValidUntil, Confidentiality, Status);
  }
  ToTape() {
    let args = [];
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Location);
    ;
    args.push(this.Purpose);
    ;
    args.push(this.IntendedUse);
    ;
    args.push(this.Scope);
    ;
    args.push(this.Revision);
    ;
    args.push(this.DocumentOwner);
    ;
    args.push(this.Editors);
    ;
    args.push(this.CreationTime);
    ;
    args.push(this.LastRevisionTime);
    ;
    args.push(this.ElectronicFormat);
    ;
    args.push(this.ValidFrom);
    ;
    args.push(this.ValidUntil);
    ;
    args.push(this.Confidentiality);
    ;
    args.push(this.Status);
    ;
    return args;
  }
};
var IfcDocumentInformationRelationship = class {
  constructor(expressID, type, Name, Description, RelatingDocument, RelatedDocuments, RelationshipType) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingDocument = RelatingDocument;
    this.RelatedDocuments = RelatedDocuments;
    this.RelationshipType = RelationshipType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingDocument = tape[ptr++];
    let RelatedDocuments = tape[ptr++];
    let RelationshipType = tape[ptr++];
    return new IfcDocumentInformationRelationship(expressID, type, Name, Description, RelatingDocument, RelatedDocuments, RelationshipType);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingDocument);
    ;
    args.push(this.RelatedDocuments);
    ;
    args.push(this.RelationshipType);
    ;
    return args;
  }
};
var IfcDocumentReference = class {
  constructor(expressID, type, Location, Identification, Name, Description, ReferencedDocument) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
    this.Description = Description;
    this.ReferencedDocument = ReferencedDocument;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ReferencedDocument = tape[ptr++];
    return new IfcDocumentReference(expressID, type, Location, Identification, Name, Description, ReferencedDocument);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ReferencedDocument);
    ;
    return args;
  }
};
var IfcDoor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, OperationType, UserDefinedOperationType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.OverallHeight = OverallHeight;
    this.OverallWidth = OverallWidth;
    this.PredefinedType = PredefinedType;
    this.OperationType = OperationType;
    this.UserDefinedOperationType = UserDefinedOperationType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let OverallHeight = tape[ptr++];
    let OverallWidth = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let OperationType = tape[ptr++];
    let UserDefinedOperationType = tape[ptr++];
    return new IfcDoor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, OperationType, UserDefinedOperationType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.OverallHeight);
    ;
    args.push(this.OverallWidth);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.UserDefinedOperationType);
    ;
    return args;
  }
};
var IfcDoorLiningProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, LiningDepth, LiningThickness, ThresholdDepth, ThresholdThickness, TransomThickness, TransomOffset, LiningOffset, ThresholdOffset, CasingThickness, CasingDepth, ShapeAspectStyle, LiningToPanelOffsetX, LiningToPanelOffsetY) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.LiningDepth = LiningDepth;
    this.LiningThickness = LiningThickness;
    this.ThresholdDepth = ThresholdDepth;
    this.ThresholdThickness = ThresholdThickness;
    this.TransomThickness = TransomThickness;
    this.TransomOffset = TransomOffset;
    this.LiningOffset = LiningOffset;
    this.ThresholdOffset = ThresholdOffset;
    this.CasingThickness = CasingThickness;
    this.CasingDepth = CasingDepth;
    this.ShapeAspectStyle = ShapeAspectStyle;
    this.LiningToPanelOffsetX = LiningToPanelOffsetX;
    this.LiningToPanelOffsetY = LiningToPanelOffsetY;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let LiningDepth = tape[ptr++];
    let LiningThickness = tape[ptr++];
    let ThresholdDepth = tape[ptr++];
    let ThresholdThickness = tape[ptr++];
    let TransomThickness = tape[ptr++];
    let TransomOffset = tape[ptr++];
    let LiningOffset = tape[ptr++];
    let ThresholdOffset = tape[ptr++];
    let CasingThickness = tape[ptr++];
    let CasingDepth = tape[ptr++];
    let ShapeAspectStyle = tape[ptr++];
    let LiningToPanelOffsetX = tape[ptr++];
    let LiningToPanelOffsetY = tape[ptr++];
    return new IfcDoorLiningProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, LiningDepth, LiningThickness, ThresholdDepth, ThresholdThickness, TransomThickness, TransomOffset, LiningOffset, ThresholdOffset, CasingThickness, CasingDepth, ShapeAspectStyle, LiningToPanelOffsetX, LiningToPanelOffsetY);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.LiningDepth);
    ;
    args.push(this.LiningThickness);
    ;
    args.push(this.ThresholdDepth);
    ;
    args.push(this.ThresholdThickness);
    ;
    args.push(this.TransomThickness);
    ;
    args.push(this.TransomOffset);
    ;
    args.push(this.LiningOffset);
    ;
    args.push(this.ThresholdOffset);
    ;
    args.push(this.CasingThickness);
    ;
    args.push(this.CasingDepth);
    ;
    args.push(this.ShapeAspectStyle);
    ;
    args.push(this.LiningToPanelOffsetX);
    ;
    args.push(this.LiningToPanelOffsetY);
    ;
    return args;
  }
};
var IfcDoorPanelProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, PanelDepth, PanelOperation, PanelWidth, PanelPosition, ShapeAspectStyle) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.PanelDepth = PanelDepth;
    this.PanelOperation = PanelOperation;
    this.PanelWidth = PanelWidth;
    this.PanelPosition = PanelPosition;
    this.ShapeAspectStyle = ShapeAspectStyle;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let PanelDepth = tape[ptr++];
    let PanelOperation = tape[ptr++];
    let PanelWidth = tape[ptr++];
    let PanelPosition = tape[ptr++];
    let ShapeAspectStyle = tape[ptr++];
    return new IfcDoorPanelProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, PanelDepth, PanelOperation, PanelWidth, PanelPosition, ShapeAspectStyle);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.PanelDepth);
    ;
    args.push(this.PanelOperation);
    ;
    args.push(this.PanelWidth);
    ;
    args.push(this.PanelPosition);
    ;
    args.push(this.ShapeAspectStyle);
    ;
    return args;
  }
};
var IfcDoorStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, OperationType, UserDefinedOperationType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.OverallHeight = OverallHeight;
    this.OverallWidth = OverallWidth;
    this.PredefinedType = PredefinedType;
    this.OperationType = OperationType;
    this.UserDefinedOperationType = UserDefinedOperationType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let OverallHeight = tape[ptr++];
    let OverallWidth = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let OperationType = tape[ptr++];
    let UserDefinedOperationType = tape[ptr++];
    return new IfcDoorStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, OperationType, UserDefinedOperationType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.OverallHeight);
    ;
    args.push(this.OverallWidth);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.UserDefinedOperationType);
    ;
    return args;
  }
};
var IfcDoorStyle = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, OperationType, ConstructionType, ParameterTakesPrecedence, Sizeable) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.OperationType = OperationType;
    this.ConstructionType = ConstructionType;
    this.ParameterTakesPrecedence = ParameterTakesPrecedence;
    this.Sizeable = Sizeable;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let OperationType = tape[ptr++];
    let ConstructionType = tape[ptr++];
    let ParameterTakesPrecedence = tape[ptr++];
    let Sizeable = tape[ptr++];
    return new IfcDoorStyle(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, OperationType, ConstructionType, ParameterTakesPrecedence, Sizeable);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.ConstructionType);
    ;
    args.push(this.ParameterTakesPrecedence);
    ;
    args.push(this.Sizeable);
    ;
    return args;
  }
};
var IfcDoorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, OperationType, ParameterTakesPrecedence, UserDefinedOperationType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.OperationType = OperationType;
    this.ParameterTakesPrecedence = ParameterTakesPrecedence;
    this.UserDefinedOperationType = UserDefinedOperationType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let OperationType = tape[ptr++];
    let ParameterTakesPrecedence = tape[ptr++];
    let UserDefinedOperationType = tape[ptr++];
    return new IfcDoorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, OperationType, ParameterTakesPrecedence, UserDefinedOperationType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.ParameterTakesPrecedence);
    ;
    args.push(this.UserDefinedOperationType);
    ;
    return args;
  }
};
var IfcDraughtingPreDefinedColour = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcDraughtingPreDefinedColour(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcDraughtingPreDefinedCurveFont = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcDraughtingPreDefinedCurveFont(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcDuctFitting = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDuctFitting(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDuctFittingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDuctFittingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDuctSegment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDuctSegment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDuctSegmentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDuctSegmentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDuctSilencer = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDuctSilencer(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcDuctSilencerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcDuctSilencerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEdge = class {
  constructor(expressID, type, EdgeStart, EdgeEnd) {
    this.expressID = expressID;
    this.type = type;
    this.EdgeStart = EdgeStart;
    this.EdgeEnd = EdgeEnd;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let EdgeStart = tape[ptr++];
    let EdgeEnd = tape[ptr++];
    return new IfcEdge(expressID, type, EdgeStart, EdgeEnd);
  }
  ToTape() {
    let args = [];
    args.push(this.EdgeStart);
    ;
    args.push(this.EdgeEnd);
    ;
    return args;
  }
};
var IfcEdgeCurve = class {
  constructor(expressID, type, EdgeStart, EdgeEnd, EdgeGeometry, SameSense) {
    this.expressID = expressID;
    this.type = type;
    this.EdgeStart = EdgeStart;
    this.EdgeEnd = EdgeEnd;
    this.EdgeGeometry = EdgeGeometry;
    this.SameSense = SameSense;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let EdgeStart = tape[ptr++];
    let EdgeEnd = tape[ptr++];
    let EdgeGeometry = tape[ptr++];
    let SameSense = tape[ptr++];
    return new IfcEdgeCurve(expressID, type, EdgeStart, EdgeEnd, EdgeGeometry, SameSense);
  }
  ToTape() {
    let args = [];
    args.push(this.EdgeStart);
    ;
    args.push(this.EdgeEnd);
    ;
    args.push(this.EdgeGeometry);
    ;
    args.push(this.SameSense);
    ;
    return args;
  }
};
var IfcEdgeLoop = class {
  constructor(expressID, type, EdgeList) {
    this.expressID = expressID;
    this.type = type;
    this.EdgeList = EdgeList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let EdgeList = tape[ptr++];
    return new IfcEdgeLoop(expressID, type, EdgeList);
  }
  ToTape() {
    let args = [];
    args.push(this.EdgeList);
    ;
    return args;
  }
};
var IfcElectricAppliance = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricAppliance(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricApplianceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricApplianceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricDistributionBoard = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricDistributionBoard(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricDistributionBoardType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricDistributionBoardType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricFlowStorageDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricFlowStorageDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricFlowStorageDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricFlowStorageDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricGenerator = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricGenerator(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricGeneratorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricGeneratorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricMotor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricMotor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricMotorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricMotorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricTimeControl = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricTimeControl(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElectricTimeControlType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElectricTimeControlType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcElementAssembly = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, AssemblyPlace, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.AssemblyPlace = AssemblyPlace;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let AssemblyPlace = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElementAssembly(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, AssemblyPlace, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.AssemblyPlace);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElementAssemblyType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcElementAssemblyType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcElementComponent = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcElementComponent(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcElementComponentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcElementComponentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcElementQuantity = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, MethodOfMeasurement, Quantities) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.MethodOfMeasurement = MethodOfMeasurement;
    this.Quantities = Quantities;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let MethodOfMeasurement = tape[ptr++];
    let Quantities = tape[ptr++];
    return new IfcElementQuantity(expressID, type, GlobalId, OwnerHistory, Name, Description, MethodOfMeasurement, Quantities);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.MethodOfMeasurement);
    ;
    args.push(this.Quantities);
    ;
    return args;
  }
};
var IfcElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcElementarySurface = class {
  constructor(expressID, type, Position) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    return new IfcElementarySurface(expressID, type, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcEllipse = class {
  constructor(expressID, type, Position, SemiAxis1, SemiAxis2) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.SemiAxis1 = SemiAxis1;
    this.SemiAxis2 = SemiAxis2;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let SemiAxis1 = tape[ptr++];
    let SemiAxis2 = tape[ptr++];
    return new IfcEllipse(expressID, type, Position, SemiAxis1, SemiAxis2);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.SemiAxis1);
    ;
    args.push(this.SemiAxis2);
    ;
    return args;
  }
};
var IfcEllipseProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, SemiAxis1, SemiAxis2) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.SemiAxis1 = SemiAxis1;
    this.SemiAxis2 = SemiAxis2;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let SemiAxis1 = tape[ptr++];
    let SemiAxis2 = tape[ptr++];
    return new IfcEllipseProfileDef(expressID, type, ProfileType, ProfileName, Position, SemiAxis1, SemiAxis2);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.SemiAxis1);
    ;
    args.push(this.SemiAxis2);
    ;
    return args;
  }
};
var IfcEnergyConversionDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcEnergyConversionDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcEnergyConversionDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcEnergyConversionDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcEngine = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcEngine(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEngineType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcEngineType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEvaporativeCooler = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcEvaporativeCooler(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEvaporativeCoolerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcEvaporativeCoolerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEvaporator = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcEvaporator(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEvaporatorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcEvaporatorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcEvent = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, PredefinedType, EventTriggerType, UserDefinedEventTriggerType, EventOccurenceTime) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.PredefinedType = PredefinedType;
    this.EventTriggerType = EventTriggerType;
    this.UserDefinedEventTriggerType = UserDefinedEventTriggerType;
    this.EventOccurenceTime = EventOccurenceTime;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let EventTriggerType = tape[ptr++];
    let UserDefinedEventTriggerType = tape[ptr++];
    let EventOccurenceTime = tape[ptr++];
    return new IfcEvent(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, PredefinedType, EventTriggerType, UserDefinedEventTriggerType, EventOccurenceTime);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.EventTriggerType);
    ;
    args.push(this.UserDefinedEventTriggerType);
    ;
    args.push(this.EventOccurenceTime);
    ;
    return args;
  }
};
var IfcEventTime = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, ActualDate, EarlyDate, LateDate, ScheduleDate) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.ActualDate = ActualDate;
    this.EarlyDate = EarlyDate;
    this.LateDate = LateDate;
    this.ScheduleDate = ScheduleDate;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let ActualDate = tape[ptr++];
    let EarlyDate = tape[ptr++];
    let LateDate = tape[ptr++];
    let ScheduleDate = tape[ptr++];
    return new IfcEventTime(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, ActualDate, EarlyDate, LateDate, ScheduleDate);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.ActualDate);
    ;
    args.push(this.EarlyDate);
    ;
    args.push(this.LateDate);
    ;
    args.push(this.ScheduleDate);
    ;
    return args;
  }
};
var IfcEventType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType, PredefinedType, EventTriggerType, UserDefinedEventTriggerType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ProcessType = ProcessType;
    this.PredefinedType = PredefinedType;
    this.EventTriggerType = EventTriggerType;
    this.UserDefinedEventTriggerType = UserDefinedEventTriggerType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ProcessType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let EventTriggerType = tape[ptr++];
    let UserDefinedEventTriggerType = tape[ptr++];
    return new IfcEventType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType, PredefinedType, EventTriggerType, UserDefinedEventTriggerType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ProcessType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.EventTriggerType);
    ;
    args.push(this.UserDefinedEventTriggerType);
    ;
    return args;
  }
};
var IfcExtendedProperties = class {
  constructor(expressID, type, Name, Description, Properties) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Properties = Properties;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Properties = tape[ptr++];
    return new IfcExtendedProperties(expressID, type, Name, Description, Properties);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Properties);
    ;
    return args;
  }
};
var IfcExternalInformation = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcExternalInformation(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcExternalReference = class {
  constructor(expressID, type, Location, Identification, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcExternalReference(expressID, type, Location, Identification, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcExternalReferenceRelationship = class {
  constructor(expressID, type, Name, Description, RelatingReference, RelatedResourceObjects) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingReference = RelatingReference;
    this.RelatedResourceObjects = RelatedResourceObjects;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingReference = tape[ptr++];
    let RelatedResourceObjects = tape[ptr++];
    return new IfcExternalReferenceRelationship(expressID, type, Name, Description, RelatingReference, RelatedResourceObjects);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingReference);
    ;
    args.push(this.RelatedResourceObjects);
    ;
    return args;
  }
};
var IfcExternalSpatialElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcExternalSpatialElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcExternalSpatialStructureElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    return new IfcExternalSpatialStructureElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    return args;
  }
};
var IfcExternallyDefinedHatchStyle = class {
  constructor(expressID, type, Location, Identification, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcExternallyDefinedHatchStyle(expressID, type, Location, Identification, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcExternallyDefinedSurfaceStyle = class {
  constructor(expressID, type, Location, Identification, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcExternallyDefinedSurfaceStyle(expressID, type, Location, Identification, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcExternallyDefinedTextFont = class {
  constructor(expressID, type, Location, Identification, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcExternallyDefinedTextFont(expressID, type, Location, Identification, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcExtrudedAreaSolid = class {
  constructor(expressID, type, SweptArea, Position, ExtrudedDirection, Depth) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
    this.ExtrudedDirection = ExtrudedDirection;
    this.Depth = Depth;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    let ExtrudedDirection = tape[ptr++];
    let Depth = tape[ptr++];
    return new IfcExtrudedAreaSolid(expressID, type, SweptArea, Position, ExtrudedDirection, Depth);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    args.push(this.ExtrudedDirection);
    ;
    args.push(this.Depth);
    ;
    return args;
  }
};
var IfcExtrudedAreaSolidTapered = class {
  constructor(expressID, type, SweptArea, Position, ExtrudedDirection, Depth, EndSweptArea) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
    this.ExtrudedDirection = ExtrudedDirection;
    this.Depth = Depth;
    this.EndSweptArea = EndSweptArea;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    let ExtrudedDirection = tape[ptr++];
    let Depth = tape[ptr++];
    let EndSweptArea = tape[ptr++];
    return new IfcExtrudedAreaSolidTapered(expressID, type, SweptArea, Position, ExtrudedDirection, Depth, EndSweptArea);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    args.push(this.ExtrudedDirection);
    ;
    args.push(this.Depth);
    ;
    args.push(this.EndSweptArea);
    ;
    return args;
  }
};
var IfcFace = class {
  constructor(expressID, type, Bounds) {
    this.expressID = expressID;
    this.type = type;
    this.Bounds = Bounds;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Bounds = tape[ptr++];
    return new IfcFace(expressID, type, Bounds);
  }
  ToTape() {
    let args = [];
    args.push(this.Bounds);
    ;
    return args;
  }
};
var IfcFaceBasedSurfaceModel = class {
  constructor(expressID, type, FbsmFaces) {
    this.expressID = expressID;
    this.type = type;
    this.FbsmFaces = FbsmFaces;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let FbsmFaces = tape[ptr++];
    return new IfcFaceBasedSurfaceModel(expressID, type, FbsmFaces);
  }
  ToTape() {
    let args = [];
    args.push(this.FbsmFaces);
    ;
    return args;
  }
};
var IfcFaceBound = class {
  constructor(expressID, type, Bound, Orientation) {
    this.expressID = expressID;
    this.type = type;
    this.Bound = Bound;
    this.Orientation = Orientation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Bound = tape[ptr++];
    let Orientation = tape[ptr++];
    return new IfcFaceBound(expressID, type, Bound, Orientation);
  }
  ToTape() {
    let args = [];
    args.push(this.Bound);
    ;
    args.push(this.Orientation);
    ;
    return args;
  }
};
var IfcFaceOuterBound = class {
  constructor(expressID, type, Bound, Orientation) {
    this.expressID = expressID;
    this.type = type;
    this.Bound = Bound;
    this.Orientation = Orientation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Bound = tape[ptr++];
    let Orientation = tape[ptr++];
    return new IfcFaceOuterBound(expressID, type, Bound, Orientation);
  }
  ToTape() {
    let args = [];
    args.push(this.Bound);
    ;
    args.push(this.Orientation);
    ;
    return args;
  }
};
var IfcFaceSurface = class {
  constructor(expressID, type, Bounds, FaceSurface, SameSense) {
    this.expressID = expressID;
    this.type = type;
    this.Bounds = Bounds;
    this.FaceSurface = FaceSurface;
    this.SameSense = SameSense;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Bounds = tape[ptr++];
    let FaceSurface = tape[ptr++];
    let SameSense = tape[ptr++];
    return new IfcFaceSurface(expressID, type, Bounds, FaceSurface, SameSense);
  }
  ToTape() {
    let args = [];
    args.push(this.Bounds);
    ;
    args.push(this.FaceSurface);
    ;
    args.push(this.SameSense);
    ;
    return args;
  }
};
var IfcFacetedBrep = class {
  constructor(expressID, type, Outer) {
    this.expressID = expressID;
    this.type = type;
    this.Outer = Outer;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Outer = tape[ptr++];
    return new IfcFacetedBrep(expressID, type, Outer);
  }
  ToTape() {
    let args = [];
    args.push(this.Outer);
    ;
    return args;
  }
};
var IfcFacetedBrepWithVoids = class {
  constructor(expressID, type, Outer, Voids) {
    this.expressID = expressID;
    this.type = type;
    this.Outer = Outer;
    this.Voids = Voids;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Outer = tape[ptr++];
    let Voids = tape[ptr++];
    return new IfcFacetedBrepWithVoids(expressID, type, Outer, Voids);
  }
  ToTape() {
    let args = [];
    args.push(this.Outer);
    ;
    args.push(this.Voids);
    ;
    return args;
  }
};
var IfcFacility = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    return new IfcFacility(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    return args;
  }
};
var IfcFacilityPart = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    return new IfcFacilityPart(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    return args;
  }
};
var IfcFailureConnectionCondition = class {
  constructor(expressID, type, Name, TensionFailureX, TensionFailureY, TensionFailureZ, CompressionFailureX, CompressionFailureY, CompressionFailureZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.TensionFailureX = TensionFailureX;
    this.TensionFailureY = TensionFailureY;
    this.TensionFailureZ = TensionFailureZ;
    this.CompressionFailureX = CompressionFailureX;
    this.CompressionFailureY = CompressionFailureY;
    this.CompressionFailureZ = CompressionFailureZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let TensionFailureX = tape[ptr++];
    let TensionFailureY = tape[ptr++];
    let TensionFailureZ = tape[ptr++];
    let CompressionFailureX = tape[ptr++];
    let CompressionFailureY = tape[ptr++];
    let CompressionFailureZ = tape[ptr++];
    return new IfcFailureConnectionCondition(expressID, type, Name, TensionFailureX, TensionFailureY, TensionFailureZ, CompressionFailureX, CompressionFailureY, CompressionFailureZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.TensionFailureX);
    ;
    args.push(this.TensionFailureY);
    ;
    args.push(this.TensionFailureZ);
    ;
    args.push(this.CompressionFailureX);
    ;
    args.push(this.CompressionFailureY);
    ;
    args.push(this.CompressionFailureZ);
    ;
    return args;
  }
};
var IfcFan = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFan(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFanType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFanType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFastener = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFastener(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFastenerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFastenerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFeatureElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFeatureElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFeatureElementAddition = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFeatureElementAddition(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFeatureElementSubtraction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFeatureElementSubtraction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFillAreaStyle = class {
  constructor(expressID, type, Name, FillStyles, ModelorDraughting) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.FillStyles = FillStyles;
    this.ModelorDraughting = ModelorDraughting;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let FillStyles = tape[ptr++];
    let ModelorDraughting = tape[ptr++];
    return new IfcFillAreaStyle(expressID, type, Name, FillStyles, ModelorDraughting);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.FillStyles);
    ;
    args.push(this.ModelorDraughting);
    ;
    return args;
  }
};
var IfcFillAreaStyleHatching = class {
  constructor(expressID, type, HatchLineAppearance, StartOfNextHatchLine, PointOfReferenceHatchLine, PatternStart, HatchLineAngle) {
    this.expressID = expressID;
    this.type = type;
    this.HatchLineAppearance = HatchLineAppearance;
    this.StartOfNextHatchLine = StartOfNextHatchLine;
    this.PointOfReferenceHatchLine = PointOfReferenceHatchLine;
    this.PatternStart = PatternStart;
    this.HatchLineAngle = HatchLineAngle;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let HatchLineAppearance = tape[ptr++];
    let StartOfNextHatchLine = tape[ptr++];
    let PointOfReferenceHatchLine = tape[ptr++];
    let PatternStart = tape[ptr++];
    let HatchLineAngle = tape[ptr++];
    return new IfcFillAreaStyleHatching(expressID, type, HatchLineAppearance, StartOfNextHatchLine, PointOfReferenceHatchLine, PatternStart, HatchLineAngle);
  }
  ToTape() {
    let args = [];
    args.push(this.HatchLineAppearance);
    ;
    args.push(this.StartOfNextHatchLine);
    ;
    args.push(this.PointOfReferenceHatchLine);
    ;
    args.push(this.PatternStart);
    ;
    args.push(this.HatchLineAngle);
    ;
    return args;
  }
};
var IfcFillAreaStyleTiles = class {
  constructor(expressID, type, TilingPattern, Tiles, TilingScale) {
    this.expressID = expressID;
    this.type = type;
    this.TilingPattern = TilingPattern;
    this.Tiles = Tiles;
    this.TilingScale = TilingScale;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TilingPattern = tape[ptr++];
    let Tiles = tape[ptr++];
    let TilingScale = tape[ptr++];
    return new IfcFillAreaStyleTiles(expressID, type, TilingPattern, Tiles, TilingScale);
  }
  ToTape() {
    let args = [];
    args.push(this.TilingPattern);
    ;
    args.push(this.Tiles);
    ;
    args.push(this.TilingScale);
    ;
    return args;
  }
};
var IfcFilter = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFilter(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFilterType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFilterType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFireSuppressionTerminal = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFireSuppressionTerminal(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFireSuppressionTerminalType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFireSuppressionTerminalType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFixedReferenceSweptAreaSolid = class {
  constructor(expressID, type, SweptArea, Position, Directrix, StartParam, EndParam, FixedReference) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
    this.Directrix = Directrix;
    this.StartParam = StartParam;
    this.EndParam = EndParam;
    this.FixedReference = FixedReference;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    let Directrix = tape[ptr++];
    let StartParam = tape[ptr++];
    let EndParam = tape[ptr++];
    let FixedReference = tape[ptr++];
    return new IfcFixedReferenceSweptAreaSolid(expressID, type, SweptArea, Position, Directrix, StartParam, EndParam, FixedReference);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    args.push(this.Directrix);
    ;
    args.push(this.StartParam);
    ;
    args.push(this.EndParam);
    ;
    args.push(this.FixedReference);
    ;
    return args;
  }
};
var IfcFlowController = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowController(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowControllerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowControllerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFlowFitting = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowFitting(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowFittingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowFittingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFlowInstrument = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFlowInstrument(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFlowInstrumentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFlowInstrumentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFlowMeter = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFlowMeter(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFlowMeterType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFlowMeterType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFlowMovingDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowMovingDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowMovingDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowMovingDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFlowSegment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowSegment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowSegmentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowSegmentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFlowStorageDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowStorageDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowStorageDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowStorageDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFlowTerminal = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowTerminal(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowTerminalType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowTerminalType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFlowTreatmentDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFlowTreatmentDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFlowTreatmentDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFlowTreatmentDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFooting = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFooting(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFootingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFootingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFurnishingElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcFurnishingElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcFurnishingElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcFurnishingElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcFurniture = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFurniture(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcFurnitureType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, AssemblyPlace, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.AssemblyPlace = AssemblyPlace;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let AssemblyPlace = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcFurnitureType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, AssemblyPlace, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.AssemblyPlace);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcGeographicElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcGeographicElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcGeographicElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcGeographicElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcGeometricCurveSet = class {
  constructor(expressID, type, Elements) {
    this.expressID = expressID;
    this.type = type;
    this.Elements = Elements;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Elements = tape[ptr++];
    return new IfcGeometricCurveSet(expressID, type, Elements);
  }
  ToTape() {
    let args = [];
    args.push(this.Elements);
    ;
    return args;
  }
};
var IfcGeometricRepresentationContext = class {
  constructor(expressID, type, ContextIdentifier, ContextType, CoordinateSpaceDimension, Precision, WorldCoordinateSystem, TrueNorth) {
    this.expressID = expressID;
    this.type = type;
    this.ContextIdentifier = ContextIdentifier;
    this.ContextType = ContextType;
    this.CoordinateSpaceDimension = CoordinateSpaceDimension;
    this.Precision = Precision;
    this.WorldCoordinateSystem = WorldCoordinateSystem;
    this.TrueNorth = TrueNorth;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextIdentifier = tape[ptr++];
    let ContextType = tape[ptr++];
    let CoordinateSpaceDimension = tape[ptr++];
    let Precision = tape[ptr++];
    let WorldCoordinateSystem = tape[ptr++];
    let TrueNorth = tape[ptr++];
    return new IfcGeometricRepresentationContext(expressID, type, ContextIdentifier, ContextType, CoordinateSpaceDimension, Precision, WorldCoordinateSystem, TrueNorth);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextIdentifier);
    ;
    args.push(this.ContextType);
    ;
    args.push(this.CoordinateSpaceDimension);
    ;
    args.push(this.Precision);
    ;
    args.push(this.WorldCoordinateSystem);
    ;
    args.push(this.TrueNorth);
    ;
    return args;
  }
};
var IfcGeometricRepresentationItem = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcGeometricRepresentationItem(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcGeometricRepresentationSubContext = class {
  constructor(expressID, type, ContextIdentifier, ContextType, CoordinateSpaceDimension, Precision, WorldCoordinateSystem, TrueNorth, ParentContext, TargetScale, TargetView, UserDefinedTargetView) {
    this.expressID = expressID;
    this.type = type;
    this.ContextIdentifier = ContextIdentifier;
    this.ContextType = ContextType;
    this.CoordinateSpaceDimension = CoordinateSpaceDimension;
    this.Precision = Precision;
    this.WorldCoordinateSystem = WorldCoordinateSystem;
    this.TrueNorth = TrueNorth;
    this.ParentContext = ParentContext;
    this.TargetScale = TargetScale;
    this.TargetView = TargetView;
    this.UserDefinedTargetView = UserDefinedTargetView;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextIdentifier = tape[ptr++];
    let ContextType = tape[ptr++];
    let CoordinateSpaceDimension = tape[ptr++];
    let Precision = tape[ptr++];
    let WorldCoordinateSystem = tape[ptr++];
    let TrueNorth = tape[ptr++];
    let ParentContext = tape[ptr++];
    let TargetScale = tape[ptr++];
    let TargetView = tape[ptr++];
    let UserDefinedTargetView = tape[ptr++];
    return new IfcGeometricRepresentationSubContext(expressID, type, ContextIdentifier, ContextType, CoordinateSpaceDimension, Precision, WorldCoordinateSystem, TrueNorth, ParentContext, TargetScale, TargetView, UserDefinedTargetView);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextIdentifier);
    ;
    args.push(this.ContextType);
    ;
    args.push(this.CoordinateSpaceDimension);
    ;
    args.push(this.Precision);
    ;
    args.push(this.WorldCoordinateSystem);
    ;
    args.push(this.TrueNorth);
    ;
    args.push(this.ParentContext);
    ;
    args.push(this.TargetScale);
    ;
    args.push(this.TargetView);
    ;
    args.push(this.UserDefinedTargetView);
    ;
    return args;
  }
};
var IfcGeometricSet = class {
  constructor(expressID, type, Elements) {
    this.expressID = expressID;
    this.type = type;
    this.Elements = Elements;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Elements = tape[ptr++];
    return new IfcGeometricSet(expressID, type, Elements);
  }
  ToTape() {
    let args = [];
    args.push(this.Elements);
    ;
    return args;
  }
};
var IfcGrid = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, UAxes, VAxes, WAxes, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.UAxes = UAxes;
    this.VAxes = VAxes;
    this.WAxes = WAxes;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let UAxes = tape[ptr++];
    let VAxes = tape[ptr++];
    let WAxes = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcGrid(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, UAxes, VAxes, WAxes, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.UAxes);
    ;
    args.push(this.VAxes);
    ;
    args.push(this.WAxes);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcGridAxis = class {
  constructor(expressID, type, AxisTag, AxisCurve, SameSense) {
    this.expressID = expressID;
    this.type = type;
    this.AxisTag = AxisTag;
    this.AxisCurve = AxisCurve;
    this.SameSense = SameSense;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let AxisTag = tape[ptr++];
    let AxisCurve = tape[ptr++];
    let SameSense = tape[ptr++];
    return new IfcGridAxis(expressID, type, AxisTag, AxisCurve, SameSense);
  }
  ToTape() {
    let args = [];
    args.push(this.AxisTag);
    ;
    args.push(this.AxisCurve);
    ;
    args.push(this.SameSense);
    ;
    return args;
  }
};
var IfcGridPlacement = class {
  constructor(expressID, type, PlacementRelTo, PlacementLocation, PlacementRefDirection) {
    this.expressID = expressID;
    this.type = type;
    this.PlacementRelTo = PlacementRelTo;
    this.PlacementLocation = PlacementLocation;
    this.PlacementRefDirection = PlacementRefDirection;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let PlacementRelTo = tape[ptr++];
    let PlacementLocation = tape[ptr++];
    let PlacementRefDirection = tape[ptr++];
    return new IfcGridPlacement(expressID, type, PlacementRelTo, PlacementLocation, PlacementRefDirection);
  }
  ToTape() {
    let args = [];
    args.push(this.PlacementRelTo);
    ;
    args.push(this.PlacementLocation);
    ;
    args.push(this.PlacementRefDirection);
    ;
    return args;
  }
};
var IfcGroup = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    return new IfcGroup(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    return args;
  }
};
var IfcHalfSpaceSolid = class {
  constructor(expressID, type, BaseSurface, AgreementFlag) {
    this.expressID = expressID;
    this.type = type;
    this.BaseSurface = BaseSurface;
    this.AgreementFlag = AgreementFlag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BaseSurface = tape[ptr++];
    let AgreementFlag = tape[ptr++];
    return new IfcHalfSpaceSolid(expressID, type, BaseSurface, AgreementFlag);
  }
  ToTape() {
    let args = [];
    args.push(this.BaseSurface);
    ;
    args.push(this.AgreementFlag);
    ;
    return args;
  }
};
var IfcHeatExchanger = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcHeatExchanger(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcHeatExchangerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcHeatExchangerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcHumidifier = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcHumidifier(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcHumidifierType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcHumidifierType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcIShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, OverallWidth, OverallDepth, WebThickness, FlangeThickness, FilletRadius, FlangeEdgeRadius, FlangeSlope) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.OverallWidth = OverallWidth;
    this.OverallDepth = OverallDepth;
    this.WebThickness = WebThickness;
    this.FlangeThickness = FlangeThickness;
    this.FilletRadius = FilletRadius;
    this.FlangeEdgeRadius = FlangeEdgeRadius;
    this.FlangeSlope = FlangeSlope;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let OverallWidth = tape[ptr++];
    let OverallDepth = tape[ptr++];
    let WebThickness = tape[ptr++];
    let FlangeThickness = tape[ptr++];
    let FilletRadius = tape[ptr++];
    let FlangeEdgeRadius = tape[ptr++];
    let FlangeSlope = tape[ptr++];
    return new IfcIShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, OverallWidth, OverallDepth, WebThickness, FlangeThickness, FilletRadius, FlangeEdgeRadius, FlangeSlope);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.OverallWidth);
    ;
    args.push(this.OverallDepth);
    ;
    args.push(this.WebThickness);
    ;
    args.push(this.FlangeThickness);
    ;
    args.push(this.FilletRadius);
    ;
    args.push(this.FlangeEdgeRadius);
    ;
    args.push(this.FlangeSlope);
    ;
    return args;
  }
};
var IfcImageTexture = class {
  constructor(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter, URLReference) {
    this.expressID = expressID;
    this.type = type;
    this.RepeatS = RepeatS;
    this.RepeatT = RepeatT;
    this.Mode = Mode;
    this.TextureTransform = TextureTransform;
    this.Parameter = Parameter;
    this.URLReference = URLReference;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RepeatS = tape[ptr++];
    let RepeatT = tape[ptr++];
    let Mode = tape[ptr++];
    let TextureTransform = tape[ptr++];
    let Parameter = tape[ptr++];
    let URLReference = tape[ptr++];
    return new IfcImageTexture(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter, URLReference);
  }
  ToTape() {
    let args = [];
    args.push(this.RepeatS);
    ;
    args.push(this.RepeatT);
    ;
    args.push(this.Mode);
    ;
    args.push(this.TextureTransform);
    ;
    args.push(this.Parameter);
    ;
    args.push(this.URLReference);
    ;
    return args;
  }
};
var IfcIndexedColourMap = class {
  constructor(expressID, type, MappedTo, Opacity, Colours, ColourIndex) {
    this.expressID = expressID;
    this.type = type;
    this.MappedTo = MappedTo;
    this.Opacity = Opacity;
    this.Colours = Colours;
    this.ColourIndex = ColourIndex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let MappedTo = tape[ptr++];
    let Opacity = tape[ptr++];
    let Colours = tape[ptr++];
    let ColourIndex = tape[ptr++];
    return new IfcIndexedColourMap(expressID, type, MappedTo, Opacity, Colours, ColourIndex);
  }
  ToTape() {
    let args = [];
    args.push(this.MappedTo);
    ;
    args.push(this.Opacity);
    ;
    args.push(this.Colours);
    ;
    args.push(this.ColourIndex);
    ;
    return args;
  }
};
var IfcIndexedPolyCurve = class {
  constructor(expressID, type, Points, Segments, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.Points = Points;
    this.Segments = Segments;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Points = tape[ptr++];
    let Segments = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcIndexedPolyCurve(expressID, type, Points, Segments, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.Points);
    ;
    args.push(this.Segments);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcIndexedPolygonalFace = class {
  constructor(expressID, type, CoordIndex) {
    this.expressID = expressID;
    this.type = type;
    this.CoordIndex = CoordIndex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CoordIndex = tape[ptr++];
    return new IfcIndexedPolygonalFace(expressID, type, CoordIndex);
  }
  ToTape() {
    let args = [];
    args.push(this.CoordIndex);
    ;
    return args;
  }
};
var IfcIndexedPolygonalFaceWithVoids = class {
  constructor(expressID, type, CoordIndex, InnerCoordIndices) {
    this.expressID = expressID;
    this.type = type;
    this.CoordIndex = CoordIndex;
    this.InnerCoordIndices = InnerCoordIndices;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CoordIndex = tape[ptr++];
    let InnerCoordIndices = tape[ptr++];
    return new IfcIndexedPolygonalFaceWithVoids(expressID, type, CoordIndex, InnerCoordIndices);
  }
  ToTape() {
    let args = [];
    args.push(this.CoordIndex);
    ;
    args.push(this.InnerCoordIndices);
    ;
    return args;
  }
};
var IfcIndexedTextureMap = class {
  constructor(expressID, type, Maps, MappedTo, TexCoords) {
    this.expressID = expressID;
    this.type = type;
    this.Maps = Maps;
    this.MappedTo = MappedTo;
    this.TexCoords = TexCoords;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Maps = tape[ptr++];
    let MappedTo = tape[ptr++];
    let TexCoords = tape[ptr++];
    return new IfcIndexedTextureMap(expressID, type, Maps, MappedTo, TexCoords);
  }
  ToTape() {
    let args = [];
    args.push(this.Maps);
    ;
    args.push(this.MappedTo);
    ;
    args.push(this.TexCoords);
    ;
    return args;
  }
};
var IfcIndexedTriangleTextureMap = class {
  constructor(expressID, type, Maps, MappedTo, TexCoords, TexCoordIndex) {
    this.expressID = expressID;
    this.type = type;
    this.Maps = Maps;
    this.MappedTo = MappedTo;
    this.TexCoords = TexCoords;
    this.TexCoordIndex = TexCoordIndex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Maps = tape[ptr++];
    let MappedTo = tape[ptr++];
    let TexCoords = tape[ptr++];
    let TexCoordIndex = tape[ptr++];
    return new IfcIndexedTriangleTextureMap(expressID, type, Maps, MappedTo, TexCoords, TexCoordIndex);
  }
  ToTape() {
    let args = [];
    args.push(this.Maps);
    ;
    args.push(this.MappedTo);
    ;
    args.push(this.TexCoords);
    ;
    args.push(this.TexCoordIndex);
    ;
    return args;
  }
};
var IfcInterceptor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcInterceptor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcInterceptorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcInterceptorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcIntersectionCurve = class {
  constructor(expressID, type, Curve3D, AssociatedGeometry, MasterRepresentation) {
    this.expressID = expressID;
    this.type = type;
    this.Curve3D = Curve3D;
    this.AssociatedGeometry = AssociatedGeometry;
    this.MasterRepresentation = MasterRepresentation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Curve3D = tape[ptr++];
    let AssociatedGeometry = tape[ptr++];
    let MasterRepresentation = tape[ptr++];
    return new IfcIntersectionCurve(expressID, type, Curve3D, AssociatedGeometry, MasterRepresentation);
  }
  ToTape() {
    let args = [];
    args.push(this.Curve3D);
    ;
    args.push(this.AssociatedGeometry);
    ;
    args.push(this.MasterRepresentation);
    ;
    return args;
  }
};
var IfcInventory = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, Jurisdiction, ResponsiblePersons, LastUpdateDate, CurrentValue, OriginalValue) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.PredefinedType = PredefinedType;
    this.Jurisdiction = Jurisdiction;
    this.ResponsiblePersons = ResponsiblePersons;
    this.LastUpdateDate = LastUpdateDate;
    this.CurrentValue = CurrentValue;
    this.OriginalValue = OriginalValue;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Jurisdiction = tape[ptr++];
    let ResponsiblePersons = tape[ptr++];
    let LastUpdateDate = tape[ptr++];
    let CurrentValue = tape[ptr++];
    let OriginalValue = tape[ptr++];
    return new IfcInventory(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, Jurisdiction, ResponsiblePersons, LastUpdateDate, CurrentValue, OriginalValue);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Jurisdiction);
    ;
    args.push(this.ResponsiblePersons);
    ;
    args.push(this.LastUpdateDate);
    ;
    args.push(this.CurrentValue);
    ;
    args.push(this.OriginalValue);
    ;
    return args;
  }
};
var IfcIrregularTimeSeries = class {
  constructor(expressID, type, Name, Description, StartTime, EndTime, TimeSeriesDataType, DataOrigin, UserDefinedDataOrigin, Unit, Values) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.StartTime = StartTime;
    this.EndTime = EndTime;
    this.TimeSeriesDataType = TimeSeriesDataType;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.Unit = Unit;
    this.Values = Values;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let StartTime = tape[ptr++];
    let EndTime = tape[ptr++];
    let TimeSeriesDataType = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let Unit = tape[ptr++];
    let Values = tape[ptr++];
    return new IfcIrregularTimeSeries(expressID, type, Name, Description, StartTime, EndTime, TimeSeriesDataType, DataOrigin, UserDefinedDataOrigin, Unit, Values);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.StartTime);
    ;
    args.push(this.EndTime);
    ;
    args.push(this.TimeSeriesDataType);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.Unit);
    ;
    args.push(this.Values);
    ;
    return args;
  }
};
var IfcIrregularTimeSeriesValue = class {
  constructor(expressID, type, TimeStamp, ListValues) {
    this.expressID = expressID;
    this.type = type;
    this.TimeStamp = TimeStamp;
    this.ListValues = ListValues;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TimeStamp = tape[ptr++];
    let ListValues = tape[ptr++];
    return new IfcIrregularTimeSeriesValue(expressID, type, TimeStamp, ListValues);
  }
  ToTape() {
    let args = [];
    args.push(this.TimeStamp);
    ;
    args.push(this.ListValues);
    ;
    return args;
  }
};
var IfcJunctionBox = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcJunctionBox(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcJunctionBoxType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcJunctionBoxType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Depth, Width, Thickness, FilletRadius, EdgeRadius, LegSlope) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Depth = Depth;
    this.Width = Width;
    this.Thickness = Thickness;
    this.FilletRadius = FilletRadius;
    this.EdgeRadius = EdgeRadius;
    this.LegSlope = LegSlope;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Depth = tape[ptr++];
    let Width = tape[ptr++];
    let Thickness = tape[ptr++];
    let FilletRadius = tape[ptr++];
    let EdgeRadius = tape[ptr++];
    let LegSlope = tape[ptr++];
    return new IfcLShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, Depth, Width, Thickness, FilletRadius, EdgeRadius, LegSlope);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Depth);
    ;
    args.push(this.Width);
    ;
    args.push(this.Thickness);
    ;
    args.push(this.FilletRadius);
    ;
    args.push(this.EdgeRadius);
    ;
    args.push(this.LegSlope);
    ;
    return args;
  }
};
var IfcLaborResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcLaborResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLaborResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcLaborResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLagTime = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, LagValue, DurationType) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.LagValue = LagValue;
    this.DurationType = DurationType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let LagValue = tape[ptr++];
    let DurationType = tape[ptr++];
    return new IfcLagTime(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, LagValue, DurationType);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.LagValue);
    ;
    args.push(this.DurationType);
    ;
    return args;
  }
};
var IfcLamp = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcLamp(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLampType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcLampType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLibraryInformation = class {
  constructor(expressID, type, Name, Version, Publisher, VersionDate, Location, Description) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Version = Version;
    this.Publisher = Publisher;
    this.VersionDate = VersionDate;
    this.Location = Location;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Version = tape[ptr++];
    let Publisher = tape[ptr++];
    let VersionDate = tape[ptr++];
    let Location = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcLibraryInformation(expressID, type, Name, Version, Publisher, VersionDate, Location, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Version);
    ;
    args.push(this.Publisher);
    ;
    args.push(this.VersionDate);
    ;
    args.push(this.Location);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcLibraryReference = class {
  constructor(expressID, type, Location, Identification, Name, Description, Language, ReferencedLibrary) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
    this.Identification = Identification;
    this.Name = Name;
    this.Description = Description;
    this.Language = Language;
    this.ReferencedLibrary = ReferencedLibrary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Language = tape[ptr++];
    let ReferencedLibrary = tape[ptr++];
    return new IfcLibraryReference(expressID, type, Location, Identification, Name, Description, Language, ReferencedLibrary);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Language);
    ;
    args.push(this.ReferencedLibrary);
    ;
    return args;
  }
};
var IfcLightDistributionData = class {
  constructor(expressID, type, MainPlaneAngle, SecondaryPlaneAngle, LuminousIntensity) {
    this.expressID = expressID;
    this.type = type;
    this.MainPlaneAngle = MainPlaneAngle;
    this.SecondaryPlaneAngle = SecondaryPlaneAngle;
    this.LuminousIntensity = LuminousIntensity;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let MainPlaneAngle = tape[ptr++];
    let SecondaryPlaneAngle = tape[ptr++];
    let LuminousIntensity = tape[ptr++];
    return new IfcLightDistributionData(expressID, type, MainPlaneAngle, SecondaryPlaneAngle, LuminousIntensity);
  }
  ToTape() {
    let args = [];
    args.push(this.MainPlaneAngle);
    ;
    args.push(this.SecondaryPlaneAngle);
    ;
    args.push(this.LuminousIntensity);
    ;
    return args;
  }
};
var IfcLightFixture = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcLightFixture(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLightFixtureType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcLightFixtureType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcLightIntensityDistribution = class {
  constructor(expressID, type, LightDistributionCurve, DistributionData) {
    this.expressID = expressID;
    this.type = type;
    this.LightDistributionCurve = LightDistributionCurve;
    this.DistributionData = DistributionData;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let LightDistributionCurve = tape[ptr++];
    let DistributionData = tape[ptr++];
    return new IfcLightIntensityDistribution(expressID, type, LightDistributionCurve, DistributionData);
  }
  ToTape() {
    let args = [];
    args.push(this.LightDistributionCurve);
    ;
    args.push(this.DistributionData);
    ;
    return args;
  }
};
var IfcLightSource = class {
  constructor(expressID, type, Name, LightColour, AmbientIntensity, Intensity) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LightColour = LightColour;
    this.AmbientIntensity = AmbientIntensity;
    this.Intensity = Intensity;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LightColour = tape[ptr++];
    let AmbientIntensity = tape[ptr++];
    let Intensity = tape[ptr++];
    return new IfcLightSource(expressID, type, Name, LightColour, AmbientIntensity, Intensity);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LightColour);
    ;
    args.push(this.AmbientIntensity);
    ;
    args.push(this.Intensity);
    ;
    return args;
  }
};
var IfcLightSourceAmbient = class {
  constructor(expressID, type, Name, LightColour, AmbientIntensity, Intensity) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LightColour = LightColour;
    this.AmbientIntensity = AmbientIntensity;
    this.Intensity = Intensity;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LightColour = tape[ptr++];
    let AmbientIntensity = tape[ptr++];
    let Intensity = tape[ptr++];
    return new IfcLightSourceAmbient(expressID, type, Name, LightColour, AmbientIntensity, Intensity);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LightColour);
    ;
    args.push(this.AmbientIntensity);
    ;
    args.push(this.Intensity);
    ;
    return args;
  }
};
var IfcLightSourceDirectional = class {
  constructor(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Orientation) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LightColour = LightColour;
    this.AmbientIntensity = AmbientIntensity;
    this.Intensity = Intensity;
    this.Orientation = Orientation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LightColour = tape[ptr++];
    let AmbientIntensity = tape[ptr++];
    let Intensity = tape[ptr++];
    let Orientation = tape[ptr++];
    return new IfcLightSourceDirectional(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Orientation);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LightColour);
    ;
    args.push(this.AmbientIntensity);
    ;
    args.push(this.Intensity);
    ;
    args.push(this.Orientation);
    ;
    return args;
  }
};
var IfcLightSourceGoniometric = class {
  constructor(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Position, ColourAppearance, ColourTemperature, LuminousFlux, LightEmissionSource, LightDistributionDataSource) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LightColour = LightColour;
    this.AmbientIntensity = AmbientIntensity;
    this.Intensity = Intensity;
    this.Position = Position;
    this.ColourAppearance = ColourAppearance;
    this.ColourTemperature = ColourTemperature;
    this.LuminousFlux = LuminousFlux;
    this.LightEmissionSource = LightEmissionSource;
    this.LightDistributionDataSource = LightDistributionDataSource;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LightColour = tape[ptr++];
    let AmbientIntensity = tape[ptr++];
    let Intensity = tape[ptr++];
    let Position = tape[ptr++];
    let ColourAppearance = tape[ptr++];
    let ColourTemperature = tape[ptr++];
    let LuminousFlux = tape[ptr++];
    let LightEmissionSource = tape[ptr++];
    let LightDistributionDataSource = tape[ptr++];
    return new IfcLightSourceGoniometric(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Position, ColourAppearance, ColourTemperature, LuminousFlux, LightEmissionSource, LightDistributionDataSource);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LightColour);
    ;
    args.push(this.AmbientIntensity);
    ;
    args.push(this.Intensity);
    ;
    args.push(this.Position);
    ;
    args.push(this.ColourAppearance);
    ;
    args.push(this.ColourTemperature);
    ;
    args.push(this.LuminousFlux);
    ;
    args.push(this.LightEmissionSource);
    ;
    args.push(this.LightDistributionDataSource);
    ;
    return args;
  }
};
var IfcLightSourcePositional = class {
  constructor(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Position, Radius, ConstantAttenuation, DistanceAttenuation, QuadricAttenuation) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LightColour = LightColour;
    this.AmbientIntensity = AmbientIntensity;
    this.Intensity = Intensity;
    this.Position = Position;
    this.Radius = Radius;
    this.ConstantAttenuation = ConstantAttenuation;
    this.DistanceAttenuation = DistanceAttenuation;
    this.QuadricAttenuation = QuadricAttenuation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LightColour = tape[ptr++];
    let AmbientIntensity = tape[ptr++];
    let Intensity = tape[ptr++];
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    let ConstantAttenuation = tape[ptr++];
    let DistanceAttenuation = tape[ptr++];
    let QuadricAttenuation = tape[ptr++];
    return new IfcLightSourcePositional(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Position, Radius, ConstantAttenuation, DistanceAttenuation, QuadricAttenuation);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LightColour);
    ;
    args.push(this.AmbientIntensity);
    ;
    args.push(this.Intensity);
    ;
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    args.push(this.ConstantAttenuation);
    ;
    args.push(this.DistanceAttenuation);
    ;
    args.push(this.QuadricAttenuation);
    ;
    return args;
  }
};
var IfcLightSourceSpot = class {
  constructor(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Position, Radius, ConstantAttenuation, DistanceAttenuation, QuadricAttenuation, Orientation, ConcentrationExponent, SpreadAngle, BeamWidthAngle) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LightColour = LightColour;
    this.AmbientIntensity = AmbientIntensity;
    this.Intensity = Intensity;
    this.Position = Position;
    this.Radius = Radius;
    this.ConstantAttenuation = ConstantAttenuation;
    this.DistanceAttenuation = DistanceAttenuation;
    this.QuadricAttenuation = QuadricAttenuation;
    this.Orientation = Orientation;
    this.ConcentrationExponent = ConcentrationExponent;
    this.SpreadAngle = SpreadAngle;
    this.BeamWidthAngle = BeamWidthAngle;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LightColour = tape[ptr++];
    let AmbientIntensity = tape[ptr++];
    let Intensity = tape[ptr++];
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    let ConstantAttenuation = tape[ptr++];
    let DistanceAttenuation = tape[ptr++];
    let QuadricAttenuation = tape[ptr++];
    let Orientation = tape[ptr++];
    let ConcentrationExponent = tape[ptr++];
    let SpreadAngle = tape[ptr++];
    let BeamWidthAngle = tape[ptr++];
    return new IfcLightSourceSpot(expressID, type, Name, LightColour, AmbientIntensity, Intensity, Position, Radius, ConstantAttenuation, DistanceAttenuation, QuadricAttenuation, Orientation, ConcentrationExponent, SpreadAngle, BeamWidthAngle);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LightColour);
    ;
    args.push(this.AmbientIntensity);
    ;
    args.push(this.Intensity);
    ;
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    args.push(this.ConstantAttenuation);
    ;
    args.push(this.DistanceAttenuation);
    ;
    args.push(this.QuadricAttenuation);
    ;
    args.push(this.Orientation);
    ;
    args.push(this.ConcentrationExponent);
    ;
    args.push(this.SpreadAngle);
    ;
    args.push(this.BeamWidthAngle);
    ;
    return args;
  }
};
var IfcLine = class {
  constructor(expressID, type, Pnt, Dir) {
    this.expressID = expressID;
    this.type = type;
    this.Pnt = Pnt;
    this.Dir = Dir;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Pnt = tape[ptr++];
    let Dir = tape[ptr++];
    return new IfcLine(expressID, type, Pnt, Dir);
  }
  ToTape() {
    let args = [];
    args.push(this.Pnt);
    ;
    args.push(this.Dir);
    ;
    return args;
  }
};
var IfcLineSegment2D = class {
  constructor(expressID, type, StartPoint, StartDirection, SegmentLength) {
    this.expressID = expressID;
    this.type = type;
    this.StartPoint = StartPoint;
    this.StartDirection = StartDirection;
    this.SegmentLength = SegmentLength;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let StartPoint = tape[ptr++];
    let StartDirection = tape[ptr++];
    let SegmentLength = tape[ptr++];
    return new IfcLineSegment2D(expressID, type, StartPoint, StartDirection, SegmentLength);
  }
  ToTape() {
    let args = [];
    args.push(this.StartPoint);
    ;
    args.push(this.StartDirection);
    ;
    args.push(this.SegmentLength);
    ;
    return args;
  }
};
var IfcLinearPlacement = class {
  constructor(expressID, type, PlacementRelTo, PlacementMeasuredAlong, Distance, Orientation, CartesianPosition) {
    this.expressID = expressID;
    this.type = type;
    this.PlacementRelTo = PlacementRelTo;
    this.PlacementMeasuredAlong = PlacementMeasuredAlong;
    this.Distance = Distance;
    this.Orientation = Orientation;
    this.CartesianPosition = CartesianPosition;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let PlacementRelTo = tape[ptr++];
    let PlacementMeasuredAlong = tape[ptr++];
    let Distance = tape[ptr++];
    let Orientation = tape[ptr++];
    let CartesianPosition = tape[ptr++];
    return new IfcLinearPlacement(expressID, type, PlacementRelTo, PlacementMeasuredAlong, Distance, Orientation, CartesianPosition);
  }
  ToTape() {
    let args = [];
    args.push(this.PlacementRelTo);
    ;
    args.push(this.PlacementMeasuredAlong);
    ;
    args.push(this.Distance);
    ;
    args.push(this.Orientation);
    ;
    args.push(this.CartesianPosition);
    ;
    return args;
  }
};
var IfcLinearPositioningElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Axis) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Axis = Axis;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Axis = tape[ptr++];
    return new IfcLinearPositioningElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Axis);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Axis);
    ;
    return args;
  }
};
var IfcLocalPlacement = class {
  constructor(expressID, type, PlacementRelTo, RelativePlacement) {
    this.expressID = expressID;
    this.type = type;
    this.PlacementRelTo = PlacementRelTo;
    this.RelativePlacement = RelativePlacement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let PlacementRelTo = tape[ptr++];
    let RelativePlacement = tape[ptr++];
    return new IfcLocalPlacement(expressID, type, PlacementRelTo, RelativePlacement);
  }
  ToTape() {
    let args = [];
    args.push(this.PlacementRelTo);
    ;
    args.push(this.RelativePlacement);
    ;
    return args;
  }
};
var IfcLoop = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcLoop(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcManifoldSolidBrep = class {
  constructor(expressID, type, Outer) {
    this.expressID = expressID;
    this.type = type;
    this.Outer = Outer;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Outer = tape[ptr++];
    return new IfcManifoldSolidBrep(expressID, type, Outer);
  }
  ToTape() {
    let args = [];
    args.push(this.Outer);
    ;
    return args;
  }
};
var IfcMapConversion = class {
  constructor(expressID, type, SourceCRS, TargetCRS, Eastings, Northings, OrthogonalHeight, XAxisAbscissa, XAxisOrdinate, Scale) {
    this.expressID = expressID;
    this.type = type;
    this.SourceCRS = SourceCRS;
    this.TargetCRS = TargetCRS;
    this.Eastings = Eastings;
    this.Northings = Northings;
    this.OrthogonalHeight = OrthogonalHeight;
    this.XAxisAbscissa = XAxisAbscissa;
    this.XAxisOrdinate = XAxisOrdinate;
    this.Scale = Scale;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SourceCRS = tape[ptr++];
    let TargetCRS = tape[ptr++];
    let Eastings = tape[ptr++];
    let Northings = tape[ptr++];
    let OrthogonalHeight = tape[ptr++];
    let XAxisAbscissa = tape[ptr++];
    let XAxisOrdinate = tape[ptr++];
    let Scale = tape[ptr++];
    return new IfcMapConversion(expressID, type, SourceCRS, TargetCRS, Eastings, Northings, OrthogonalHeight, XAxisAbscissa, XAxisOrdinate, Scale);
  }
  ToTape() {
    let args = [];
    args.push(this.SourceCRS);
    ;
    args.push(this.TargetCRS);
    ;
    args.push(this.Eastings);
    ;
    args.push(this.Northings);
    ;
    args.push(this.OrthogonalHeight);
    ;
    args.push(this.XAxisAbscissa);
    ;
    args.push(this.XAxisOrdinate);
    ;
    args.push(this.Scale);
    ;
    return args;
  }
};
var IfcMappedItem = class {
  constructor(expressID, type, MappingSource, MappingTarget) {
    this.expressID = expressID;
    this.type = type;
    this.MappingSource = MappingSource;
    this.MappingTarget = MappingTarget;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let MappingSource = tape[ptr++];
    let MappingTarget = tape[ptr++];
    return new IfcMappedItem(expressID, type, MappingSource, MappingTarget);
  }
  ToTape() {
    let args = [];
    args.push(this.MappingSource);
    ;
    args.push(this.MappingTarget);
    ;
    return args;
  }
};
var IfcMaterial = class {
  constructor(expressID, type, Name, Description, Category) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Category = Category;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Category = tape[ptr++];
    return new IfcMaterial(expressID, type, Name, Description, Category);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Category);
    ;
    return args;
  }
};
var IfcMaterialClassificationRelationship = class {
  constructor(expressID, type, MaterialClassifications, ClassifiedMaterial) {
    this.expressID = expressID;
    this.type = type;
    this.MaterialClassifications = MaterialClassifications;
    this.ClassifiedMaterial = ClassifiedMaterial;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let MaterialClassifications = tape[ptr++];
    let ClassifiedMaterial = tape[ptr++];
    return new IfcMaterialClassificationRelationship(expressID, type, MaterialClassifications, ClassifiedMaterial);
  }
  ToTape() {
    let args = [];
    args.push(this.MaterialClassifications);
    ;
    args.push(this.ClassifiedMaterial);
    ;
    return args;
  }
};
var IfcMaterialConstituent = class {
  constructor(expressID, type, Name, Description, Material, Fraction, Category) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Material = Material;
    this.Fraction = Fraction;
    this.Category = Category;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Material = tape[ptr++];
    let Fraction = tape[ptr++];
    let Category = tape[ptr++];
    return new IfcMaterialConstituent(expressID, type, Name, Description, Material, Fraction, Category);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Material);
    ;
    args.push(this.Fraction);
    ;
    args.push(this.Category);
    ;
    return args;
  }
};
var IfcMaterialConstituentSet = class {
  constructor(expressID, type, Name, Description, MaterialConstituents) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.MaterialConstituents = MaterialConstituents;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let MaterialConstituents = tape[ptr++];
    return new IfcMaterialConstituentSet(expressID, type, Name, Description, MaterialConstituents);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.MaterialConstituents);
    ;
    return args;
  }
};
var IfcMaterialDefinition = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcMaterialDefinition(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcMaterialDefinitionRepresentation = class {
  constructor(expressID, type, Name, Description, Representations, RepresentedMaterial) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Representations = Representations;
    this.RepresentedMaterial = RepresentedMaterial;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Representations = tape[ptr++];
    let RepresentedMaterial = tape[ptr++];
    return new IfcMaterialDefinitionRepresentation(expressID, type, Name, Description, Representations, RepresentedMaterial);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Representations);
    ;
    args.push(this.RepresentedMaterial);
    ;
    return args;
  }
};
var IfcMaterialLayer = class {
  constructor(expressID, type, Material, LayerThickness, IsVentilated, Name, Description, Category, Priority) {
    this.expressID = expressID;
    this.type = type;
    this.Material = Material;
    this.LayerThickness = LayerThickness;
    this.IsVentilated = IsVentilated;
    this.Name = Name;
    this.Description = Description;
    this.Category = Category;
    this.Priority = Priority;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Material = tape[ptr++];
    let LayerThickness = tape[ptr++];
    let IsVentilated = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Category = tape[ptr++];
    let Priority = tape[ptr++];
    return new IfcMaterialLayer(expressID, type, Material, LayerThickness, IsVentilated, Name, Description, Category, Priority);
  }
  ToTape() {
    let args = [];
    args.push(this.Material);
    ;
    args.push(this.LayerThickness);
    ;
    args.push(this.IsVentilated);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Category);
    ;
    args.push(this.Priority);
    ;
    return args;
  }
};
var IfcMaterialLayerSet = class {
  constructor(expressID, type, MaterialLayers, LayerSetName, Description) {
    this.expressID = expressID;
    this.type = type;
    this.MaterialLayers = MaterialLayers;
    this.LayerSetName = LayerSetName;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let MaterialLayers = tape[ptr++];
    let LayerSetName = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcMaterialLayerSet(expressID, type, MaterialLayers, LayerSetName, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.MaterialLayers);
    ;
    args.push(this.LayerSetName);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcMaterialLayerSetUsage = class {
  constructor(expressID, type, ForLayerSet, LayerSetDirection, DirectionSense, OffsetFromReferenceLine, ReferenceExtent) {
    this.expressID = expressID;
    this.type = type;
    this.ForLayerSet = ForLayerSet;
    this.LayerSetDirection = LayerSetDirection;
    this.DirectionSense = DirectionSense;
    this.OffsetFromReferenceLine = OffsetFromReferenceLine;
    this.ReferenceExtent = ReferenceExtent;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ForLayerSet = tape[ptr++];
    let LayerSetDirection = tape[ptr++];
    let DirectionSense = tape[ptr++];
    let OffsetFromReferenceLine = tape[ptr++];
    let ReferenceExtent = tape[ptr++];
    return new IfcMaterialLayerSetUsage(expressID, type, ForLayerSet, LayerSetDirection, DirectionSense, OffsetFromReferenceLine, ReferenceExtent);
  }
  ToTape() {
    let args = [];
    args.push(this.ForLayerSet);
    ;
    args.push(this.LayerSetDirection);
    ;
    args.push(this.DirectionSense);
    ;
    args.push(this.OffsetFromReferenceLine);
    ;
    args.push(this.ReferenceExtent);
    ;
    return args;
  }
};
var IfcMaterialLayerWithOffsets = class {
  constructor(expressID, type, Material, LayerThickness, IsVentilated, Name, Description, Category, Priority, OffsetDirection, OffsetValues) {
    this.expressID = expressID;
    this.type = type;
    this.Material = Material;
    this.LayerThickness = LayerThickness;
    this.IsVentilated = IsVentilated;
    this.Name = Name;
    this.Description = Description;
    this.Category = Category;
    this.Priority = Priority;
    this.OffsetDirection = OffsetDirection;
    this.OffsetValues = OffsetValues;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Material = tape[ptr++];
    let LayerThickness = tape[ptr++];
    let IsVentilated = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Category = tape[ptr++];
    let Priority = tape[ptr++];
    let OffsetDirection = tape[ptr++];
    let OffsetValues = tape[ptr++];
    return new IfcMaterialLayerWithOffsets(expressID, type, Material, LayerThickness, IsVentilated, Name, Description, Category, Priority, OffsetDirection, OffsetValues);
  }
  ToTape() {
    let args = [];
    args.push(this.Material);
    ;
    args.push(this.LayerThickness);
    ;
    args.push(this.IsVentilated);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Category);
    ;
    args.push(this.Priority);
    ;
    args.push(this.OffsetDirection);
    ;
    args.push(this.OffsetValues);
    ;
    return args;
  }
};
var IfcMaterialList = class {
  constructor(expressID, type, Materials) {
    this.expressID = expressID;
    this.type = type;
    this.Materials = Materials;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Materials = tape[ptr++];
    return new IfcMaterialList(expressID, type, Materials);
  }
  ToTape() {
    let args = [];
    args.push(this.Materials);
    ;
    return args;
  }
};
var IfcMaterialProfile = class {
  constructor(expressID, type, Name, Description, Material, Profile, Priority, Category) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Material = Material;
    this.Profile = Profile;
    this.Priority = Priority;
    this.Category = Category;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Material = tape[ptr++];
    let Profile = tape[ptr++];
    let Priority = tape[ptr++];
    let Category = tape[ptr++];
    return new IfcMaterialProfile(expressID, type, Name, Description, Material, Profile, Priority, Category);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Material);
    ;
    args.push(this.Profile);
    ;
    args.push(this.Priority);
    ;
    args.push(this.Category);
    ;
    return args;
  }
};
var IfcMaterialProfileSet = class {
  constructor(expressID, type, Name, Description, MaterialProfiles, CompositeProfile) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.MaterialProfiles = MaterialProfiles;
    this.CompositeProfile = CompositeProfile;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let MaterialProfiles = tape[ptr++];
    let CompositeProfile = tape[ptr++];
    return new IfcMaterialProfileSet(expressID, type, Name, Description, MaterialProfiles, CompositeProfile);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.MaterialProfiles);
    ;
    args.push(this.CompositeProfile);
    ;
    return args;
  }
};
var IfcMaterialProfileSetUsage = class {
  constructor(expressID, type, ForProfileSet, CardinalPoint, ReferenceExtent) {
    this.expressID = expressID;
    this.type = type;
    this.ForProfileSet = ForProfileSet;
    this.CardinalPoint = CardinalPoint;
    this.ReferenceExtent = ReferenceExtent;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ForProfileSet = tape[ptr++];
    let CardinalPoint = tape[ptr++];
    let ReferenceExtent = tape[ptr++];
    return new IfcMaterialProfileSetUsage(expressID, type, ForProfileSet, CardinalPoint, ReferenceExtent);
  }
  ToTape() {
    let args = [];
    args.push(this.ForProfileSet);
    ;
    args.push(this.CardinalPoint);
    ;
    args.push(this.ReferenceExtent);
    ;
    return args;
  }
};
var IfcMaterialProfileSetUsageTapering = class {
  constructor(expressID, type, ForProfileSet, CardinalPoint, ReferenceExtent, ForProfileEndSet, CardinalEndPoint) {
    this.expressID = expressID;
    this.type = type;
    this.ForProfileSet = ForProfileSet;
    this.CardinalPoint = CardinalPoint;
    this.ReferenceExtent = ReferenceExtent;
    this.ForProfileEndSet = ForProfileEndSet;
    this.CardinalEndPoint = CardinalEndPoint;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ForProfileSet = tape[ptr++];
    let CardinalPoint = tape[ptr++];
    let ReferenceExtent = tape[ptr++];
    let ForProfileEndSet = tape[ptr++];
    let CardinalEndPoint = tape[ptr++];
    return new IfcMaterialProfileSetUsageTapering(expressID, type, ForProfileSet, CardinalPoint, ReferenceExtent, ForProfileEndSet, CardinalEndPoint);
  }
  ToTape() {
    let args = [];
    args.push(this.ForProfileSet);
    ;
    args.push(this.CardinalPoint);
    ;
    args.push(this.ReferenceExtent);
    ;
    args.push(this.ForProfileEndSet);
    ;
    args.push(this.CardinalEndPoint);
    ;
    return args;
  }
};
var IfcMaterialProfileWithOffsets = class {
  constructor(expressID, type, Name, Description, Material, Profile, Priority, Category, OffsetValues) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Material = Material;
    this.Profile = Profile;
    this.Priority = Priority;
    this.Category = Category;
    this.OffsetValues = OffsetValues;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Material = tape[ptr++];
    let Profile = tape[ptr++];
    let Priority = tape[ptr++];
    let Category = tape[ptr++];
    let OffsetValues = tape[ptr++];
    return new IfcMaterialProfileWithOffsets(expressID, type, Name, Description, Material, Profile, Priority, Category, OffsetValues);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Material);
    ;
    args.push(this.Profile);
    ;
    args.push(this.Priority);
    ;
    args.push(this.Category);
    ;
    args.push(this.OffsetValues);
    ;
    return args;
  }
};
var IfcMaterialProperties = class {
  constructor(expressID, type, Name, Description, Properties, Material) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Properties = Properties;
    this.Material = Material;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Properties = tape[ptr++];
    let Material = tape[ptr++];
    return new IfcMaterialProperties(expressID, type, Name, Description, Properties, Material);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Properties);
    ;
    args.push(this.Material);
    ;
    return args;
  }
};
var IfcMaterialRelationship = class {
  constructor(expressID, type, Name, Description, RelatingMaterial, RelatedMaterials, Expression) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingMaterial = RelatingMaterial;
    this.RelatedMaterials = RelatedMaterials;
    this.Expression = Expression;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingMaterial = tape[ptr++];
    let RelatedMaterials = tape[ptr++];
    let Expression = tape[ptr++];
    return new IfcMaterialRelationship(expressID, type, Name, Description, RelatingMaterial, RelatedMaterials, Expression);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingMaterial);
    ;
    args.push(this.RelatedMaterials);
    ;
    args.push(this.Expression);
    ;
    return args;
  }
};
var IfcMaterialUsageDefinition = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcMaterialUsageDefinition(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcMeasureWithUnit = class {
  constructor(expressID, type, ValueComponent, UnitComponent) {
    this.expressID = expressID;
    this.type = type;
    this.ValueComponent = ValueComponent;
    this.UnitComponent = UnitComponent;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ValueComponent = tape[ptr++];
    let UnitComponent = tape[ptr++];
    return new IfcMeasureWithUnit(expressID, type, ValueComponent, UnitComponent);
  }
  ToTape() {
    let args = [];
    args.push(this.ValueComponent);
    ;
    args.push(this.UnitComponent);
    ;
    return args;
  }
};
var IfcMechanicalFastener = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, NominalDiameter, NominalLength, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.NominalDiameter = NominalDiameter;
    this.NominalLength = NominalLength;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let NominalDiameter = tape[ptr++];
    let NominalLength = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMechanicalFastener(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, NominalDiameter, NominalLength, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.NominalDiameter);
    ;
    args.push(this.NominalLength);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMechanicalFastenerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, NominalDiameter, NominalLength) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.NominalDiameter = NominalDiameter;
    this.NominalLength = NominalLength;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let NominalDiameter = tape[ptr++];
    let NominalLength = tape[ptr++];
    return new IfcMechanicalFastenerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, NominalDiameter, NominalLength);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.NominalDiameter);
    ;
    args.push(this.NominalLength);
    ;
    return args;
  }
};
var IfcMedicalDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMedicalDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMedicalDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMedicalDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMember = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMember(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMemberStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMemberStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMemberType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMemberType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMetric = class {
  constructor(expressID, type, Name, Description, ConstraintGrade, ConstraintSource, CreatingActor, CreationTime, UserDefinedGrade, Benchmark, ValueSource, DataValue, ReferencePath) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.ConstraintGrade = ConstraintGrade;
    this.ConstraintSource = ConstraintSource;
    this.CreatingActor = CreatingActor;
    this.CreationTime = CreationTime;
    this.UserDefinedGrade = UserDefinedGrade;
    this.Benchmark = Benchmark;
    this.ValueSource = ValueSource;
    this.DataValue = DataValue;
    this.ReferencePath = ReferencePath;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ConstraintGrade = tape[ptr++];
    let ConstraintSource = tape[ptr++];
    let CreatingActor = tape[ptr++];
    let CreationTime = tape[ptr++];
    let UserDefinedGrade = tape[ptr++];
    let Benchmark = tape[ptr++];
    let ValueSource = tape[ptr++];
    let DataValue = tape[ptr++];
    let ReferencePath = tape[ptr++];
    return new IfcMetric(expressID, type, Name, Description, ConstraintGrade, ConstraintSource, CreatingActor, CreationTime, UserDefinedGrade, Benchmark, ValueSource, DataValue, ReferencePath);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ConstraintGrade);
    ;
    args.push(this.ConstraintSource);
    ;
    args.push(this.CreatingActor);
    ;
    args.push(this.CreationTime);
    ;
    args.push(this.UserDefinedGrade);
    ;
    args.push(this.Benchmark);
    ;
    args.push(this.ValueSource);
    ;
    args.push(this.DataValue);
    ;
    args.push(this.ReferencePath);
    ;
    return args;
  }
};
var IfcMirroredProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, ParentProfile, Operator, Label) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.ParentProfile = ParentProfile;
    this.Operator = Operator;
    this.Label = Label;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let ParentProfile = tape[ptr++];
    let Operator = tape[ptr++];
    let Label = tape[ptr++];
    return new IfcMirroredProfileDef(expressID, type, ProfileType, ProfileName, ParentProfile, Operator, Label);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.ParentProfile);
    ;
    args.push(this.Operator);
    ;
    args.push(this.Label);
    ;
    return args;
  }
};
var IfcMonetaryUnit = class {
  constructor(expressID, type, Currency) {
    this.expressID = expressID;
    this.type = type;
    this.Currency = Currency;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Currency = tape[ptr++];
    return new IfcMonetaryUnit(expressID, type, Currency);
  }
  ToTape() {
    let args = [];
    args.push(this.Currency);
    ;
    return args;
  }
};
var IfcMotorConnection = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMotorConnection(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcMotorConnectionType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcMotorConnectionType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcNamedUnit = class {
  constructor(expressID, type, Dimensions, UnitType) {
    this.expressID = expressID;
    this.type = type;
    this.Dimensions = Dimensions;
    this.UnitType = UnitType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Dimensions = tape[ptr++];
    let UnitType = tape[ptr++];
    return new IfcNamedUnit(expressID, type, Dimensions, UnitType);
  }
  ToTape() {
    let args = [];
    args.push(this.Dimensions);
    ;
    args.push(this.UnitType);
    ;
    return args;
  }
};
var IfcObject = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    return new IfcObject(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    return args;
  }
};
var IfcObjectDefinition = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcObjectDefinition(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcObjectPlacement = class {
  constructor(expressID, type, PlacementRelTo) {
    this.expressID = expressID;
    this.type = type;
    this.PlacementRelTo = PlacementRelTo;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let PlacementRelTo = tape[ptr++];
    return new IfcObjectPlacement(expressID, type, PlacementRelTo);
  }
  ToTape() {
    let args = [];
    args.push(this.PlacementRelTo);
    ;
    return args;
  }
};
var IfcObjective = class {
  constructor(expressID, type, Name, Description, ConstraintGrade, ConstraintSource, CreatingActor, CreationTime, UserDefinedGrade, BenchmarkValues, LogicalAggregator, ObjectiveQualifier, UserDefinedQualifier) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.ConstraintGrade = ConstraintGrade;
    this.ConstraintSource = ConstraintSource;
    this.CreatingActor = CreatingActor;
    this.CreationTime = CreationTime;
    this.UserDefinedGrade = UserDefinedGrade;
    this.BenchmarkValues = BenchmarkValues;
    this.LogicalAggregator = LogicalAggregator;
    this.ObjectiveQualifier = ObjectiveQualifier;
    this.UserDefinedQualifier = UserDefinedQualifier;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ConstraintGrade = tape[ptr++];
    let ConstraintSource = tape[ptr++];
    let CreatingActor = tape[ptr++];
    let CreationTime = tape[ptr++];
    let UserDefinedGrade = tape[ptr++];
    let BenchmarkValues = tape[ptr++];
    let LogicalAggregator = tape[ptr++];
    let ObjectiveQualifier = tape[ptr++];
    let UserDefinedQualifier = tape[ptr++];
    return new IfcObjective(expressID, type, Name, Description, ConstraintGrade, ConstraintSource, CreatingActor, CreationTime, UserDefinedGrade, BenchmarkValues, LogicalAggregator, ObjectiveQualifier, UserDefinedQualifier);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ConstraintGrade);
    ;
    args.push(this.ConstraintSource);
    ;
    args.push(this.CreatingActor);
    ;
    args.push(this.CreationTime);
    ;
    args.push(this.UserDefinedGrade);
    ;
    args.push(this.BenchmarkValues);
    ;
    args.push(this.LogicalAggregator);
    ;
    args.push(this.ObjectiveQualifier);
    ;
    args.push(this.UserDefinedQualifier);
    ;
    return args;
  }
};
var IfcOccupant = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, TheActor, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.TheActor = TheActor;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let TheActor = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcOccupant(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, TheActor, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.TheActor);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcOffsetCurve = class {
  constructor(expressID, type, BasisCurve) {
    this.expressID = expressID;
    this.type = type;
    this.BasisCurve = BasisCurve;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisCurve = tape[ptr++];
    return new IfcOffsetCurve(expressID, type, BasisCurve);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisCurve);
    ;
    return args;
  }
};
var IfcOffsetCurve2D = class {
  constructor(expressID, type, BasisCurve, Distance, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.BasisCurve = BasisCurve;
    this.Distance = Distance;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisCurve = tape[ptr++];
    let Distance = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcOffsetCurve2D(expressID, type, BasisCurve, Distance, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisCurve);
    ;
    args.push(this.Distance);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcOffsetCurve3D = class {
  constructor(expressID, type, BasisCurve, Distance, SelfIntersect, RefDirection) {
    this.expressID = expressID;
    this.type = type;
    this.BasisCurve = BasisCurve;
    this.Distance = Distance;
    this.SelfIntersect = SelfIntersect;
    this.RefDirection = RefDirection;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisCurve = tape[ptr++];
    let Distance = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    let RefDirection = tape[ptr++];
    return new IfcOffsetCurve3D(expressID, type, BasisCurve, Distance, SelfIntersect, RefDirection);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisCurve);
    ;
    args.push(this.Distance);
    ;
    args.push(this.SelfIntersect);
    ;
    args.push(this.RefDirection);
    ;
    return args;
  }
};
var IfcOffsetCurveByDistances = class {
  constructor(expressID, type, BasisCurve, OffsetValues, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.BasisCurve = BasisCurve;
    this.OffsetValues = OffsetValues;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisCurve = tape[ptr++];
    let OffsetValues = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcOffsetCurveByDistances(expressID, type, BasisCurve, OffsetValues, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisCurve);
    ;
    args.push(this.OffsetValues);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcOpenShell = class {
  constructor(expressID, type, CfsFaces) {
    this.expressID = expressID;
    this.type = type;
    this.CfsFaces = CfsFaces;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let CfsFaces = tape[ptr++];
    return new IfcOpenShell(expressID, type, CfsFaces);
  }
  ToTape() {
    let args = [];
    args.push(this.CfsFaces);
    ;
    return args;
  }
};
var IfcOpeningElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcOpeningElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcOpeningStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcOpeningStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcOrganization = class {
  constructor(expressID, type, Identification, Name, Description, Roles, Addresses) {
    this.expressID = expressID;
    this.type = type;
    this.Identification = Identification;
    this.Name = Name;
    this.Description = Description;
    this.Roles = Roles;
    this.Addresses = Addresses;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Identification = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Roles = tape[ptr++];
    let Addresses = tape[ptr++];
    return new IfcOrganization(expressID, type, Identification, Name, Description, Roles, Addresses);
  }
  ToTape() {
    let args = [];
    args.push(this.Identification);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Roles);
    ;
    args.push(this.Addresses);
    ;
    return args;
  }
};
var IfcOrganizationRelationship = class {
  constructor(expressID, type, Name, Description, RelatingOrganization, RelatedOrganizations) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingOrganization = RelatingOrganization;
    this.RelatedOrganizations = RelatedOrganizations;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingOrganization = tape[ptr++];
    let RelatedOrganizations = tape[ptr++];
    return new IfcOrganizationRelationship(expressID, type, Name, Description, RelatingOrganization, RelatedOrganizations);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingOrganization);
    ;
    args.push(this.RelatedOrganizations);
    ;
    return args;
  }
};
var IfcOrientationExpression = class {
  constructor(expressID, type, LateralAxisDirection, VerticalAxisDirection) {
    this.expressID = expressID;
    this.type = type;
    this.LateralAxisDirection = LateralAxisDirection;
    this.VerticalAxisDirection = VerticalAxisDirection;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let LateralAxisDirection = tape[ptr++];
    let VerticalAxisDirection = tape[ptr++];
    return new IfcOrientationExpression(expressID, type, LateralAxisDirection, VerticalAxisDirection);
  }
  ToTape() {
    let args = [];
    args.push(this.LateralAxisDirection);
    ;
    args.push(this.VerticalAxisDirection);
    ;
    return args;
  }
};
var IfcOrientedEdge = class {
  constructor(expressID, type, EdgeStart, EdgeEnd, EdgeElement, Orientation) {
    this.expressID = expressID;
    this.type = type;
    this.EdgeStart = EdgeStart;
    this.EdgeEnd = EdgeEnd;
    this.EdgeElement = EdgeElement;
    this.Orientation = Orientation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let EdgeStart = tape[ptr++];
    let EdgeEnd = tape[ptr++];
    let EdgeElement = tape[ptr++];
    let Orientation = tape[ptr++];
    return new IfcOrientedEdge(expressID, type, EdgeStart, EdgeEnd, EdgeElement, Orientation);
  }
  ToTape() {
    let args = [];
    args.push(this.EdgeStart);
    ;
    args.push(this.EdgeEnd);
    ;
    args.push(this.EdgeElement);
    ;
    args.push(this.Orientation);
    ;
    return args;
  }
};
var IfcOuterBoundaryCurve = class {
  constructor(expressID, type, Segments, SelfIntersect) {
    this.expressID = expressID;
    this.type = type;
    this.Segments = Segments;
    this.SelfIntersect = SelfIntersect;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Segments = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    return new IfcOuterBoundaryCurve(expressID, type, Segments, SelfIntersect);
  }
  ToTape() {
    let args = [];
    args.push(this.Segments);
    ;
    args.push(this.SelfIntersect);
    ;
    return args;
  }
};
var IfcOutlet = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcOutlet(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcOutletType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcOutletType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcOwnerHistory = class {
  constructor(expressID, type, OwningUser, OwningApplication, State, ChangeAction, LastModifiedDate, LastModifyingUser, LastModifyingApplication, CreationDate) {
    this.expressID = expressID;
    this.type = type;
    this.OwningUser = OwningUser;
    this.OwningApplication = OwningApplication;
    this.State = State;
    this.ChangeAction = ChangeAction;
    this.LastModifiedDate = LastModifiedDate;
    this.LastModifyingUser = LastModifyingUser;
    this.LastModifyingApplication = LastModifyingApplication;
    this.CreationDate = CreationDate;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let OwningUser = tape[ptr++];
    let OwningApplication = tape[ptr++];
    let State = tape[ptr++];
    let ChangeAction = tape[ptr++];
    let LastModifiedDate = tape[ptr++];
    let LastModifyingUser = tape[ptr++];
    let LastModifyingApplication = tape[ptr++];
    let CreationDate = tape[ptr++];
    return new IfcOwnerHistory(expressID, type, OwningUser, OwningApplication, State, ChangeAction, LastModifiedDate, LastModifyingUser, LastModifyingApplication, CreationDate);
  }
  ToTape() {
    let args = [];
    args.push(this.OwningUser);
    ;
    args.push(this.OwningApplication);
    ;
    args.push(this.State);
    ;
    args.push(this.ChangeAction);
    ;
    args.push(this.LastModifiedDate);
    ;
    args.push(this.LastModifyingUser);
    ;
    args.push(this.LastModifyingApplication);
    ;
    args.push(this.CreationDate);
    ;
    return args;
  }
};
var IfcParameterizedProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    return new IfcParameterizedProfileDef(expressID, type, ProfileType, ProfileName, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcPath = class {
  constructor(expressID, type, EdgeList) {
    this.expressID = expressID;
    this.type = type;
    this.EdgeList = EdgeList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let EdgeList = tape[ptr++];
    return new IfcPath(expressID, type, EdgeList);
  }
  ToTape() {
    let args = [];
    args.push(this.EdgeList);
    ;
    return args;
  }
};
var IfcPcurve = class {
  constructor(expressID, type, BasisSurface, ReferenceCurve) {
    this.expressID = expressID;
    this.type = type;
    this.BasisSurface = BasisSurface;
    this.ReferenceCurve = ReferenceCurve;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisSurface = tape[ptr++];
    let ReferenceCurve = tape[ptr++];
    return new IfcPcurve(expressID, type, BasisSurface, ReferenceCurve);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisSurface);
    ;
    args.push(this.ReferenceCurve);
    ;
    return args;
  }
};
var IfcPerformanceHistory = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LifeCyclePhase, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LifeCyclePhase = LifeCyclePhase;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LifeCyclePhase = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPerformanceHistory(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LifeCyclePhase, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LifeCyclePhase);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPermeableCoveringProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, OperationType, PanelPosition, FrameDepth, FrameThickness, ShapeAspectStyle) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.OperationType = OperationType;
    this.PanelPosition = PanelPosition;
    this.FrameDepth = FrameDepth;
    this.FrameThickness = FrameThickness;
    this.ShapeAspectStyle = ShapeAspectStyle;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let OperationType = tape[ptr++];
    let PanelPosition = tape[ptr++];
    let FrameDepth = tape[ptr++];
    let FrameThickness = tape[ptr++];
    let ShapeAspectStyle = tape[ptr++];
    return new IfcPermeableCoveringProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, OperationType, PanelPosition, FrameDepth, FrameThickness, ShapeAspectStyle);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.PanelPosition);
    ;
    args.push(this.FrameDepth);
    ;
    args.push(this.FrameThickness);
    ;
    args.push(this.ShapeAspectStyle);
    ;
    return args;
  }
};
var IfcPermit = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, LongDescription) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.PredefinedType = PredefinedType;
    this.Status = Status;
    this.LongDescription = LongDescription;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Status = tape[ptr++];
    let LongDescription = tape[ptr++];
    return new IfcPermit(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, LongDescription);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Status);
    ;
    args.push(this.LongDescription);
    ;
    return args;
  }
};
var IfcPerson = class {
  constructor(expressID, type, Identification, FamilyName, GivenName, MiddleNames, PrefixTitles, SuffixTitles, Roles, Addresses) {
    this.expressID = expressID;
    this.type = type;
    this.Identification = Identification;
    this.FamilyName = FamilyName;
    this.GivenName = GivenName;
    this.MiddleNames = MiddleNames;
    this.PrefixTitles = PrefixTitles;
    this.SuffixTitles = SuffixTitles;
    this.Roles = Roles;
    this.Addresses = Addresses;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Identification = tape[ptr++];
    let FamilyName = tape[ptr++];
    let GivenName = tape[ptr++];
    let MiddleNames = tape[ptr++];
    let PrefixTitles = tape[ptr++];
    let SuffixTitles = tape[ptr++];
    let Roles = tape[ptr++];
    let Addresses = tape[ptr++];
    return new IfcPerson(expressID, type, Identification, FamilyName, GivenName, MiddleNames, PrefixTitles, SuffixTitles, Roles, Addresses);
  }
  ToTape() {
    let args = [];
    args.push(this.Identification);
    ;
    args.push(this.FamilyName);
    ;
    args.push(this.GivenName);
    ;
    args.push(this.MiddleNames);
    ;
    args.push(this.PrefixTitles);
    ;
    args.push(this.SuffixTitles);
    ;
    args.push(this.Roles);
    ;
    args.push(this.Addresses);
    ;
    return args;
  }
};
var IfcPersonAndOrganization = class {
  constructor(expressID, type, ThePerson, TheOrganization, Roles) {
    this.expressID = expressID;
    this.type = type;
    this.ThePerson = ThePerson;
    this.TheOrganization = TheOrganization;
    this.Roles = Roles;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ThePerson = tape[ptr++];
    let TheOrganization = tape[ptr++];
    let Roles = tape[ptr++];
    return new IfcPersonAndOrganization(expressID, type, ThePerson, TheOrganization, Roles);
  }
  ToTape() {
    let args = [];
    args.push(this.ThePerson);
    ;
    args.push(this.TheOrganization);
    ;
    args.push(this.Roles);
    ;
    return args;
  }
};
var IfcPhysicalComplexQuantity = class {
  constructor(expressID, type, Name, Description, HasQuantities, Discrimination, Quality, Usage) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.HasQuantities = HasQuantities;
    this.Discrimination = Discrimination;
    this.Quality = Quality;
    this.Usage = Usage;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let HasQuantities = tape[ptr++];
    let Discrimination = tape[ptr++];
    let Quality = tape[ptr++];
    let Usage = tape[ptr++];
    return new IfcPhysicalComplexQuantity(expressID, type, Name, Description, HasQuantities, Discrimination, Quality, Usage);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.HasQuantities);
    ;
    args.push(this.Discrimination);
    ;
    args.push(this.Quality);
    ;
    args.push(this.Usage);
    ;
    return args;
  }
};
var IfcPhysicalQuantity = class {
  constructor(expressID, type, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcPhysicalQuantity(expressID, type, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcPhysicalSimpleQuantity = class {
  constructor(expressID, type, Name, Description, Unit) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    return new IfcPhysicalSimpleQuantity(expressID, type, Name, Description, Unit);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    return args;
  }
};
var IfcPile = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType, ConstructionType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
    this.ConstructionType = ConstructionType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let ConstructionType = tape[ptr++];
    return new IfcPile(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType, ConstructionType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.ConstructionType);
    ;
    return args;
  }
};
var IfcPileType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPileType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPipeFitting = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPipeFitting(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPipeFittingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPipeFittingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPipeSegment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPipeSegment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPipeSegmentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPipeSegmentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPixelTexture = class {
  constructor(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter, Width, Height, ColourComponents, Pixel) {
    this.expressID = expressID;
    this.type = type;
    this.RepeatS = RepeatS;
    this.RepeatT = RepeatT;
    this.Mode = Mode;
    this.TextureTransform = TextureTransform;
    this.Parameter = Parameter;
    this.Width = Width;
    this.Height = Height;
    this.ColourComponents = ColourComponents;
    this.Pixel = Pixel;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RepeatS = tape[ptr++];
    let RepeatT = tape[ptr++];
    let Mode = tape[ptr++];
    let TextureTransform = tape[ptr++];
    let Parameter = tape[ptr++];
    let Width = tape[ptr++];
    let Height = tape[ptr++];
    let ColourComponents = tape[ptr++];
    let Pixel = tape[ptr++];
    return new IfcPixelTexture(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter, Width, Height, ColourComponents, Pixel);
  }
  ToTape() {
    let args = [];
    args.push(this.RepeatS);
    ;
    args.push(this.RepeatT);
    ;
    args.push(this.Mode);
    ;
    args.push(this.TextureTransform);
    ;
    args.push(this.Parameter);
    ;
    args.push(this.Width);
    ;
    args.push(this.Height);
    ;
    args.push(this.ColourComponents);
    ;
    args.push(this.Pixel);
    ;
    return args;
  }
};
var IfcPlacement = class {
  constructor(expressID, type, Location) {
    this.expressID = expressID;
    this.type = type;
    this.Location = Location;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Location = tape[ptr++];
    return new IfcPlacement(expressID, type, Location);
  }
  ToTape() {
    let args = [];
    args.push(this.Location);
    ;
    return args;
  }
};
var IfcPlanarBox = class {
  constructor(expressID, type, SizeInX, SizeInY, Placement) {
    this.expressID = expressID;
    this.type = type;
    this.SizeInX = SizeInX;
    this.SizeInY = SizeInY;
    this.Placement = Placement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SizeInX = tape[ptr++];
    let SizeInY = tape[ptr++];
    let Placement = tape[ptr++];
    return new IfcPlanarBox(expressID, type, SizeInX, SizeInY, Placement);
  }
  ToTape() {
    let args = [];
    args.push(this.SizeInX);
    ;
    args.push(this.SizeInY);
    ;
    args.push(this.Placement);
    ;
    return args;
  }
};
var IfcPlanarExtent = class {
  constructor(expressID, type, SizeInX, SizeInY) {
    this.expressID = expressID;
    this.type = type;
    this.SizeInX = SizeInX;
    this.SizeInY = SizeInY;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SizeInX = tape[ptr++];
    let SizeInY = tape[ptr++];
    return new IfcPlanarExtent(expressID, type, SizeInX, SizeInY);
  }
  ToTape() {
    let args = [];
    args.push(this.SizeInX);
    ;
    args.push(this.SizeInY);
    ;
    return args;
  }
};
var IfcPlane = class {
  constructor(expressID, type, Position) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    return new IfcPlane(expressID, type, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcPlate = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPlate(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPlateStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPlateStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPlateType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPlateType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPoint = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcPoint(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcPointOnCurve = class {
  constructor(expressID, type, BasisCurve, PointParameter) {
    this.expressID = expressID;
    this.type = type;
    this.BasisCurve = BasisCurve;
    this.PointParameter = PointParameter;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisCurve = tape[ptr++];
    let PointParameter = tape[ptr++];
    return new IfcPointOnCurve(expressID, type, BasisCurve, PointParameter);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisCurve);
    ;
    args.push(this.PointParameter);
    ;
    return args;
  }
};
var IfcPointOnSurface = class {
  constructor(expressID, type, BasisSurface, PointParameterU, PointParameterV) {
    this.expressID = expressID;
    this.type = type;
    this.BasisSurface = BasisSurface;
    this.PointParameterU = PointParameterU;
    this.PointParameterV = PointParameterV;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisSurface = tape[ptr++];
    let PointParameterU = tape[ptr++];
    let PointParameterV = tape[ptr++];
    return new IfcPointOnSurface(expressID, type, BasisSurface, PointParameterU, PointParameterV);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisSurface);
    ;
    args.push(this.PointParameterU);
    ;
    args.push(this.PointParameterV);
    ;
    return args;
  }
};
var IfcPolyLoop = class {
  constructor(expressID, type, Polygon) {
    this.expressID = expressID;
    this.type = type;
    this.Polygon = Polygon;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Polygon = tape[ptr++];
    return new IfcPolyLoop(expressID, type, Polygon);
  }
  ToTape() {
    let args = [];
    args.push(this.Polygon);
    ;
    return args;
  }
};
var IfcPolygonalBoundedHalfSpace = class {
  constructor(expressID, type, BaseSurface, AgreementFlag, Position, PolygonalBoundary) {
    this.expressID = expressID;
    this.type = type;
    this.BaseSurface = BaseSurface;
    this.AgreementFlag = AgreementFlag;
    this.Position = Position;
    this.PolygonalBoundary = PolygonalBoundary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BaseSurface = tape[ptr++];
    let AgreementFlag = tape[ptr++];
    let Position = tape[ptr++];
    let PolygonalBoundary = tape[ptr++];
    return new IfcPolygonalBoundedHalfSpace(expressID, type, BaseSurface, AgreementFlag, Position, PolygonalBoundary);
  }
  ToTape() {
    let args = [];
    args.push(this.BaseSurface);
    ;
    args.push(this.AgreementFlag);
    ;
    args.push(this.Position);
    ;
    args.push(this.PolygonalBoundary);
    ;
    return args;
  }
};
var IfcPolygonalFaceSet = class {
  constructor(expressID, type, Coordinates, Closed, Faces, PnIndex) {
    this.expressID = expressID;
    this.type = type;
    this.Coordinates = Coordinates;
    this.Closed = Closed;
    this.Faces = Faces;
    this.PnIndex = PnIndex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Coordinates = tape[ptr++];
    let Closed = tape[ptr++];
    let Faces = tape[ptr++];
    let PnIndex = tape[ptr++];
    return new IfcPolygonalFaceSet(expressID, type, Coordinates, Closed, Faces, PnIndex);
  }
  ToTape() {
    let args = [];
    args.push(this.Coordinates);
    ;
    args.push(this.Closed);
    ;
    args.push(this.Faces);
    ;
    args.push(this.PnIndex);
    ;
    return args;
  }
};
var IfcPolyline = class {
  constructor(expressID, type, Points) {
    this.expressID = expressID;
    this.type = type;
    this.Points = Points;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Points = tape[ptr++];
    return new IfcPolyline(expressID, type, Points);
  }
  ToTape() {
    let args = [];
    args.push(this.Points);
    ;
    return args;
  }
};
var IfcPort = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    return new IfcPort(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    return args;
  }
};
var IfcPositioningElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    return new IfcPositioningElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    return args;
  }
};
var IfcPostalAddress = class {
  constructor(expressID, type, Purpose, Description, UserDefinedPurpose, InternalLocation, AddressLines, PostalBox, Town, Region, PostalCode, Country) {
    this.expressID = expressID;
    this.type = type;
    this.Purpose = Purpose;
    this.Description = Description;
    this.UserDefinedPurpose = UserDefinedPurpose;
    this.InternalLocation = InternalLocation;
    this.AddressLines = AddressLines;
    this.PostalBox = PostalBox;
    this.Town = Town;
    this.Region = Region;
    this.PostalCode = PostalCode;
    this.Country = Country;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Purpose = tape[ptr++];
    let Description = tape[ptr++];
    let UserDefinedPurpose = tape[ptr++];
    let InternalLocation = tape[ptr++];
    let AddressLines = tape[ptr++];
    let PostalBox = tape[ptr++];
    let Town = tape[ptr++];
    let Region = tape[ptr++];
    let PostalCode = tape[ptr++];
    let Country = tape[ptr++];
    return new IfcPostalAddress(expressID, type, Purpose, Description, UserDefinedPurpose, InternalLocation, AddressLines, PostalBox, Town, Region, PostalCode, Country);
  }
  ToTape() {
    let args = [];
    args.push(this.Purpose);
    ;
    args.push(this.Description);
    ;
    args.push(this.UserDefinedPurpose);
    ;
    args.push(this.InternalLocation);
    ;
    args.push(this.AddressLines);
    ;
    args.push(this.PostalBox);
    ;
    args.push(this.Town);
    ;
    args.push(this.Region);
    ;
    args.push(this.PostalCode);
    ;
    args.push(this.Country);
    ;
    return args;
  }
};
var IfcPreDefinedColour = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcPreDefinedColour(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcPreDefinedCurveFont = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcPreDefinedCurveFont(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcPreDefinedItem = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcPreDefinedItem(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcPreDefinedProperties = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcPreDefinedProperties(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcPreDefinedPropertySet = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcPreDefinedPropertySet(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcPreDefinedTextFont = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcPreDefinedTextFont(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcPresentationItem = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcPresentationItem(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcPresentationLayerAssignment = class {
  constructor(expressID, type, Name, Description, AssignedItems, Identifier) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.AssignedItems = AssignedItems;
    this.Identifier = Identifier;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let AssignedItems = tape[ptr++];
    let Identifier = tape[ptr++];
    return new IfcPresentationLayerAssignment(expressID, type, Name, Description, AssignedItems, Identifier);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.AssignedItems);
    ;
    args.push(this.Identifier);
    ;
    return args;
  }
};
var IfcPresentationLayerWithStyle = class {
  constructor(expressID, type, Name, Description, AssignedItems, Identifier, LayerOn, LayerFrozen, LayerBlocked, LayerStyles) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.AssignedItems = AssignedItems;
    this.Identifier = Identifier;
    this.LayerOn = LayerOn;
    this.LayerFrozen = LayerFrozen;
    this.LayerBlocked = LayerBlocked;
    this.LayerStyles = LayerStyles;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let AssignedItems = tape[ptr++];
    let Identifier = tape[ptr++];
    let LayerOn = tape[ptr++];
    let LayerFrozen = tape[ptr++];
    let LayerBlocked = tape[ptr++];
    let LayerStyles = tape[ptr++];
    return new IfcPresentationLayerWithStyle(expressID, type, Name, Description, AssignedItems, Identifier, LayerOn, LayerFrozen, LayerBlocked, LayerStyles);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.AssignedItems);
    ;
    args.push(this.Identifier);
    ;
    args.push(this.LayerOn);
    ;
    args.push(this.LayerFrozen);
    ;
    args.push(this.LayerBlocked);
    ;
    args.push(this.LayerStyles);
    ;
    return args;
  }
};
var IfcPresentationStyle = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcPresentationStyle(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcPresentationStyleAssignment = class {
  constructor(expressID, type, Styles) {
    this.expressID = expressID;
    this.type = type;
    this.Styles = Styles;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Styles = tape[ptr++];
    return new IfcPresentationStyleAssignment(expressID, type, Styles);
  }
  ToTape() {
    let args = [];
    args.push(this.Styles);
    ;
    return args;
  }
};
var IfcProcedure = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProcedure(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProcedureType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ProcessType = ProcessType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ProcessType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProcedureType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ProcessType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProcess = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    return new IfcProcess(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    return args;
  }
};
var IfcProduct = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    return new IfcProduct(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    return args;
  }
};
var IfcProductDefinitionShape = class {
  constructor(expressID, type, Name, Description, Representations) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Representations = Representations;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Representations = tape[ptr++];
    return new IfcProductDefinitionShape(expressID, type, Name, Description, Representations);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Representations);
    ;
    return args;
  }
};
var IfcProductRepresentation = class {
  constructor(expressID, type, Name, Description, Representations) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Representations = Representations;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Representations = tape[ptr++];
    return new IfcProductRepresentation(expressID, type, Name, Description, Representations);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Representations);
    ;
    return args;
  }
};
var IfcProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    return new IfcProfileDef(expressID, type, ProfileType, ProfileName);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    return args;
  }
};
var IfcProfileProperties = class {
  constructor(expressID, type, Name, Description, Properties, ProfileDefinition) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Properties = Properties;
    this.ProfileDefinition = ProfileDefinition;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Properties = tape[ptr++];
    let ProfileDefinition = tape[ptr++];
    return new IfcProfileProperties(expressID, type, Name, Description, Properties, ProfileDefinition);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Properties);
    ;
    args.push(this.ProfileDefinition);
    ;
    return args;
  }
};
var IfcProject = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, Phase, RepresentationContexts, UnitsInContext) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.LongName = LongName;
    this.Phase = Phase;
    this.RepresentationContexts = RepresentationContexts;
    this.UnitsInContext = UnitsInContext;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let LongName = tape[ptr++];
    let Phase = tape[ptr++];
    let RepresentationContexts = tape[ptr++];
    let UnitsInContext = tape[ptr++];
    return new IfcProject(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, Phase, RepresentationContexts, UnitsInContext);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.LongName);
    ;
    args.push(this.Phase);
    ;
    args.push(this.RepresentationContexts);
    ;
    args.push(this.UnitsInContext);
    ;
    return args;
  }
};
var IfcProjectLibrary = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, Phase, RepresentationContexts, UnitsInContext) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.LongName = LongName;
    this.Phase = Phase;
    this.RepresentationContexts = RepresentationContexts;
    this.UnitsInContext = UnitsInContext;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let LongName = tape[ptr++];
    let Phase = tape[ptr++];
    let RepresentationContexts = tape[ptr++];
    let UnitsInContext = tape[ptr++];
    return new IfcProjectLibrary(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName, Phase, RepresentationContexts, UnitsInContext);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.LongName);
    ;
    args.push(this.Phase);
    ;
    args.push(this.RepresentationContexts);
    ;
    args.push(this.UnitsInContext);
    ;
    return args;
  }
};
var IfcProjectOrder = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, LongDescription) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.PredefinedType = PredefinedType;
    this.Status = Status;
    this.LongDescription = LongDescription;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Status = tape[ptr++];
    let LongDescription = tape[ptr++];
    return new IfcProjectOrder(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, PredefinedType, Status, LongDescription);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Status);
    ;
    args.push(this.LongDescription);
    ;
    return args;
  }
};
var IfcProjectedCRS = class {
  constructor(expressID, type, Name, Description, GeodeticDatum, VerticalDatum, MapProjection, MapZone, MapUnit) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.GeodeticDatum = GeodeticDatum;
    this.VerticalDatum = VerticalDatum;
    this.MapProjection = MapProjection;
    this.MapZone = MapZone;
    this.MapUnit = MapUnit;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let GeodeticDatum = tape[ptr++];
    let VerticalDatum = tape[ptr++];
    let MapProjection = tape[ptr++];
    let MapZone = tape[ptr++];
    let MapUnit = tape[ptr++];
    return new IfcProjectedCRS(expressID, type, Name, Description, GeodeticDatum, VerticalDatum, MapProjection, MapZone, MapUnit);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.GeodeticDatum);
    ;
    args.push(this.VerticalDatum);
    ;
    args.push(this.MapProjection);
    ;
    args.push(this.MapZone);
    ;
    args.push(this.MapUnit);
    ;
    return args;
  }
};
var IfcProjectionElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProjectionElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProperty = class {
  constructor(expressID, type, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcProperty(expressID, type, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcPropertyAbstraction = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcPropertyAbstraction(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcPropertyBoundedValue = class {
  constructor(expressID, type, Name, Description, UpperBoundValue, LowerBoundValue, Unit, SetPointValue) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.UpperBoundValue = UpperBoundValue;
    this.LowerBoundValue = LowerBoundValue;
    this.Unit = Unit;
    this.SetPointValue = SetPointValue;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let UpperBoundValue = tape[ptr++];
    let LowerBoundValue = tape[ptr++];
    let Unit = tape[ptr++];
    let SetPointValue = tape[ptr++];
    return new IfcPropertyBoundedValue(expressID, type, Name, Description, UpperBoundValue, LowerBoundValue, Unit, SetPointValue);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.UpperBoundValue);
    ;
    args.push(this.LowerBoundValue);
    ;
    args.push(this.Unit);
    ;
    args.push(this.SetPointValue);
    ;
    return args;
  }
};
var IfcPropertyDefinition = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcPropertyDefinition(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcPropertyDependencyRelationship = class {
  constructor(expressID, type, Name, Description, DependingProperty, DependantProperty, Expression) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.DependingProperty = DependingProperty;
    this.DependantProperty = DependantProperty;
    this.Expression = Expression;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let DependingProperty = tape[ptr++];
    let DependantProperty = tape[ptr++];
    let Expression = tape[ptr++];
    return new IfcPropertyDependencyRelationship(expressID, type, Name, Description, DependingProperty, DependantProperty, Expression);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.DependingProperty);
    ;
    args.push(this.DependantProperty);
    ;
    args.push(this.Expression);
    ;
    return args;
  }
};
var IfcPropertyEnumeratedValue = class {
  constructor(expressID, type, Name, Description, EnumerationValues, EnumerationReference) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.EnumerationValues = EnumerationValues;
    this.EnumerationReference = EnumerationReference;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let EnumerationValues = tape[ptr++];
    let EnumerationReference = tape[ptr++];
    return new IfcPropertyEnumeratedValue(expressID, type, Name, Description, EnumerationValues, EnumerationReference);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.EnumerationValues);
    ;
    args.push(this.EnumerationReference);
    ;
    return args;
  }
};
var IfcPropertyEnumeration = class {
  constructor(expressID, type, Name, EnumerationValues, Unit) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.EnumerationValues = EnumerationValues;
    this.Unit = Unit;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let EnumerationValues = tape[ptr++];
    let Unit = tape[ptr++];
    return new IfcPropertyEnumeration(expressID, type, Name, EnumerationValues, Unit);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.EnumerationValues);
    ;
    args.push(this.Unit);
    ;
    return args;
  }
};
var IfcPropertyListValue = class {
  constructor(expressID, type, Name, Description, ListValues, Unit) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.ListValues = ListValues;
    this.Unit = Unit;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ListValues = tape[ptr++];
    let Unit = tape[ptr++];
    return new IfcPropertyListValue(expressID, type, Name, Description, ListValues, Unit);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ListValues);
    ;
    args.push(this.Unit);
    ;
    return args;
  }
};
var IfcPropertyReferenceValue = class {
  constructor(expressID, type, Name, Description, UsageName, PropertyReference) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.UsageName = UsageName;
    this.PropertyReference = PropertyReference;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let UsageName = tape[ptr++];
    let PropertyReference = tape[ptr++];
    return new IfcPropertyReferenceValue(expressID, type, Name, Description, UsageName, PropertyReference);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.UsageName);
    ;
    args.push(this.PropertyReference);
    ;
    return args;
  }
};
var IfcPropertySet = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, HasProperties) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.HasProperties = HasProperties;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let HasProperties = tape[ptr++];
    return new IfcPropertySet(expressID, type, GlobalId, OwnerHistory, Name, Description, HasProperties);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.HasProperties);
    ;
    return args;
  }
};
var IfcPropertySetDefinition = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcPropertySetDefinition(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcPropertySetTemplate = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, TemplateType, ApplicableEntity, HasPropertyTemplates) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.TemplateType = TemplateType;
    this.ApplicableEntity = ApplicableEntity;
    this.HasPropertyTemplates = HasPropertyTemplates;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let TemplateType = tape[ptr++];
    let ApplicableEntity = tape[ptr++];
    let HasPropertyTemplates = tape[ptr++];
    return new IfcPropertySetTemplate(expressID, type, GlobalId, OwnerHistory, Name, Description, TemplateType, ApplicableEntity, HasPropertyTemplates);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.TemplateType);
    ;
    args.push(this.ApplicableEntity);
    ;
    args.push(this.HasPropertyTemplates);
    ;
    return args;
  }
};
var IfcPropertySingleValue = class {
  constructor(expressID, type, Name, Description, NominalValue, Unit) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.NominalValue = NominalValue;
    this.Unit = Unit;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let NominalValue = tape[ptr++];
    let Unit = tape[ptr++];
    return new IfcPropertySingleValue(expressID, type, Name, Description, NominalValue, Unit);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.NominalValue);
    ;
    args.push(this.Unit);
    ;
    return args;
  }
};
var IfcPropertyTableValue = class {
  constructor(expressID, type, Name, Description, DefiningValues, DefinedValues, Expression, DefiningUnit, DefinedUnit, CurveInterpolation) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.DefiningValues = DefiningValues;
    this.DefinedValues = DefinedValues;
    this.Expression = Expression;
    this.DefiningUnit = DefiningUnit;
    this.DefinedUnit = DefinedUnit;
    this.CurveInterpolation = CurveInterpolation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let DefiningValues = tape[ptr++];
    let DefinedValues = tape[ptr++];
    let Expression = tape[ptr++];
    let DefiningUnit = tape[ptr++];
    let DefinedUnit = tape[ptr++];
    let CurveInterpolation = tape[ptr++];
    return new IfcPropertyTableValue(expressID, type, Name, Description, DefiningValues, DefinedValues, Expression, DefiningUnit, DefinedUnit, CurveInterpolation);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.DefiningValues);
    ;
    args.push(this.DefinedValues);
    ;
    args.push(this.Expression);
    ;
    args.push(this.DefiningUnit);
    ;
    args.push(this.DefinedUnit);
    ;
    args.push(this.CurveInterpolation);
    ;
    return args;
  }
};
var IfcPropertyTemplate = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcPropertyTemplate(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcPropertyTemplateDefinition = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcPropertyTemplateDefinition(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcProtectiveDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProtectiveDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProtectiveDeviceTrippingUnit = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProtectiveDeviceTrippingUnit(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProtectiveDeviceTrippingUnitType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProtectiveDeviceTrippingUnitType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProtectiveDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcProtectiveDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcProxy = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, ProxyType, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.ProxyType = ProxyType;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let ProxyType = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcProxy(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, ProxyType, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.ProxyType);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcPump = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPump(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcPumpType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcPumpType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcQuantityArea = class {
  constructor(expressID, type, Name, Description, Unit, AreaValue, Formula) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.AreaValue = AreaValue;
    this.Formula = Formula;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let AreaValue = tape[ptr++];
    let Formula = tape[ptr++];
    return new IfcQuantityArea(expressID, type, Name, Description, Unit, AreaValue, Formula);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.AreaValue);
    ;
    args.push(this.Formula);
    ;
    return args;
  }
};
var IfcQuantityCount = class {
  constructor(expressID, type, Name, Description, Unit, CountValue, Formula) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.CountValue = CountValue;
    this.Formula = Formula;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let CountValue = tape[ptr++];
    let Formula = tape[ptr++];
    return new IfcQuantityCount(expressID, type, Name, Description, Unit, CountValue, Formula);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.CountValue);
    ;
    args.push(this.Formula);
    ;
    return args;
  }
};
var IfcQuantityLength = class {
  constructor(expressID, type, Name, Description, Unit, LengthValue, Formula) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.LengthValue = LengthValue;
    this.Formula = Formula;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let LengthValue = tape[ptr++];
    let Formula = tape[ptr++];
    return new IfcQuantityLength(expressID, type, Name, Description, Unit, LengthValue, Formula);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.LengthValue);
    ;
    args.push(this.Formula);
    ;
    return args;
  }
};
var IfcQuantitySet = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcQuantitySet(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcQuantityTime = class {
  constructor(expressID, type, Name, Description, Unit, TimeValue, Formula) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.TimeValue = TimeValue;
    this.Formula = Formula;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let TimeValue = tape[ptr++];
    let Formula = tape[ptr++];
    return new IfcQuantityTime(expressID, type, Name, Description, Unit, TimeValue, Formula);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.TimeValue);
    ;
    args.push(this.Formula);
    ;
    return args;
  }
};
var IfcQuantityVolume = class {
  constructor(expressID, type, Name, Description, Unit, VolumeValue, Formula) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.VolumeValue = VolumeValue;
    this.Formula = Formula;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let VolumeValue = tape[ptr++];
    let Formula = tape[ptr++];
    return new IfcQuantityVolume(expressID, type, Name, Description, Unit, VolumeValue, Formula);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.VolumeValue);
    ;
    args.push(this.Formula);
    ;
    return args;
  }
};
var IfcQuantityWeight = class {
  constructor(expressID, type, Name, Description, Unit, WeightValue, Formula) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.WeightValue = WeightValue;
    this.Formula = Formula;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let WeightValue = tape[ptr++];
    let Formula = tape[ptr++];
    return new IfcQuantityWeight(expressID, type, Name, Description, Unit, WeightValue, Formula);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.WeightValue);
    ;
    args.push(this.Formula);
    ;
    return args;
  }
};
var IfcRailing = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRailing(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRailingType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRailingType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRamp = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRamp(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRampFlight = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRampFlight(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRampFlightType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRampFlightType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRampType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRampType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRationalBSplineCurveWithKnots = class {
  constructor(expressID, type, Degree, ControlPointsList, CurveForm, ClosedCurve, SelfIntersect, KnotMultiplicities, Knots, KnotSpec, WeightsData) {
    this.expressID = expressID;
    this.type = type;
    this.Degree = Degree;
    this.ControlPointsList = ControlPointsList;
    this.CurveForm = CurveForm;
    this.ClosedCurve = ClosedCurve;
    this.SelfIntersect = SelfIntersect;
    this.KnotMultiplicities = KnotMultiplicities;
    this.Knots = Knots;
    this.KnotSpec = KnotSpec;
    this.WeightsData = WeightsData;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Degree = tape[ptr++];
    let ControlPointsList = tape[ptr++];
    let CurveForm = tape[ptr++];
    let ClosedCurve = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    let KnotMultiplicities = tape[ptr++];
    let Knots = tape[ptr++];
    let KnotSpec = tape[ptr++];
    let WeightsData = tape[ptr++];
    return new IfcRationalBSplineCurveWithKnots(expressID, type, Degree, ControlPointsList, CurveForm, ClosedCurve, SelfIntersect, KnotMultiplicities, Knots, KnotSpec, WeightsData);
  }
  ToTape() {
    let args = [];
    args.push(this.Degree);
    ;
    args.push(this.ControlPointsList);
    ;
    args.push(this.CurveForm);
    ;
    args.push(this.ClosedCurve);
    ;
    args.push(this.SelfIntersect);
    ;
    args.push(this.KnotMultiplicities);
    ;
    args.push(this.Knots);
    ;
    args.push(this.KnotSpec);
    ;
    args.push(this.WeightsData);
    ;
    return args;
  }
};
var IfcRationalBSplineSurfaceWithKnots = class {
  constructor(expressID, type, UDegree, VDegree, ControlPointsList, SurfaceForm, UClosed, VClosed, SelfIntersect, UMultiplicities, VMultiplicities, UKnots, VKnots, KnotSpec, WeightsData) {
    this.expressID = expressID;
    this.type = type;
    this.UDegree = UDegree;
    this.VDegree = VDegree;
    this.ControlPointsList = ControlPointsList;
    this.SurfaceForm = SurfaceForm;
    this.UClosed = UClosed;
    this.VClosed = VClosed;
    this.SelfIntersect = SelfIntersect;
    this.UMultiplicities = UMultiplicities;
    this.VMultiplicities = VMultiplicities;
    this.UKnots = UKnots;
    this.VKnots = VKnots;
    this.KnotSpec = KnotSpec;
    this.WeightsData = WeightsData;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let UDegree = tape[ptr++];
    let VDegree = tape[ptr++];
    let ControlPointsList = tape[ptr++];
    let SurfaceForm = tape[ptr++];
    let UClosed = tape[ptr++];
    let VClosed = tape[ptr++];
    let SelfIntersect = tape[ptr++];
    let UMultiplicities = tape[ptr++];
    let VMultiplicities = tape[ptr++];
    let UKnots = tape[ptr++];
    let VKnots = tape[ptr++];
    let KnotSpec = tape[ptr++];
    let WeightsData = tape[ptr++];
    return new IfcRationalBSplineSurfaceWithKnots(expressID, type, UDegree, VDegree, ControlPointsList, SurfaceForm, UClosed, VClosed, SelfIntersect, UMultiplicities, VMultiplicities, UKnots, VKnots, KnotSpec, WeightsData);
  }
  ToTape() {
    let args = [];
    args.push(this.UDegree);
    ;
    args.push(this.VDegree);
    ;
    args.push(this.ControlPointsList);
    ;
    args.push(this.SurfaceForm);
    ;
    args.push(this.UClosed);
    ;
    args.push(this.VClosed);
    ;
    args.push(this.SelfIntersect);
    ;
    args.push(this.UMultiplicities);
    ;
    args.push(this.VMultiplicities);
    ;
    args.push(this.UKnots);
    ;
    args.push(this.VKnots);
    ;
    args.push(this.KnotSpec);
    ;
    args.push(this.WeightsData);
    ;
    return args;
  }
};
var IfcRectangleHollowProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, XDim, YDim, WallThickness, InnerFilletRadius, OuterFilletRadius) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.XDim = XDim;
    this.YDim = YDim;
    this.WallThickness = WallThickness;
    this.InnerFilletRadius = InnerFilletRadius;
    this.OuterFilletRadius = OuterFilletRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let XDim = tape[ptr++];
    let YDim = tape[ptr++];
    let WallThickness = tape[ptr++];
    let InnerFilletRadius = tape[ptr++];
    let OuterFilletRadius = tape[ptr++];
    return new IfcRectangleHollowProfileDef(expressID, type, ProfileType, ProfileName, Position, XDim, YDim, WallThickness, InnerFilletRadius, OuterFilletRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.XDim);
    ;
    args.push(this.YDim);
    ;
    args.push(this.WallThickness);
    ;
    args.push(this.InnerFilletRadius);
    ;
    args.push(this.OuterFilletRadius);
    ;
    return args;
  }
};
var IfcRectangleProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, XDim, YDim) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.XDim = XDim;
    this.YDim = YDim;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let XDim = tape[ptr++];
    let YDim = tape[ptr++];
    return new IfcRectangleProfileDef(expressID, type, ProfileType, ProfileName, Position, XDim, YDim);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.XDim);
    ;
    args.push(this.YDim);
    ;
    return args;
  }
};
var IfcRectangularPyramid = class {
  constructor(expressID, type, Position, XLength, YLength, Height) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.XLength = XLength;
    this.YLength = YLength;
    this.Height = Height;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let XLength = tape[ptr++];
    let YLength = tape[ptr++];
    let Height = tape[ptr++];
    return new IfcRectangularPyramid(expressID, type, Position, XLength, YLength, Height);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.XLength);
    ;
    args.push(this.YLength);
    ;
    args.push(this.Height);
    ;
    return args;
  }
};
var IfcRectangularTrimmedSurface = class {
  constructor(expressID, type, BasisSurface, U1, V1, U2, V2, Usense, Vsense) {
    this.expressID = expressID;
    this.type = type;
    this.BasisSurface = BasisSurface;
    this.U1 = U1;
    this.V1 = V1;
    this.U2 = U2;
    this.V2 = V2;
    this.Usense = Usense;
    this.Vsense = Vsense;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisSurface = tape[ptr++];
    let U1 = tape[ptr++];
    let V1 = tape[ptr++];
    let U2 = tape[ptr++];
    let V2 = tape[ptr++];
    let Usense = tape[ptr++];
    let Vsense = tape[ptr++];
    return new IfcRectangularTrimmedSurface(expressID, type, BasisSurface, U1, V1, U2, V2, Usense, Vsense);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisSurface);
    ;
    args.push(this.U1);
    ;
    args.push(this.V1);
    ;
    args.push(this.U2);
    ;
    args.push(this.V2);
    ;
    args.push(this.Usense);
    ;
    args.push(this.Vsense);
    ;
    return args;
  }
};
var IfcRecurrencePattern = class {
  constructor(expressID, type, RecurrenceType, DayComponent, WeekdayComponent, MonthComponent, Position, Interval, Occurrences, TimePeriods) {
    this.expressID = expressID;
    this.type = type;
    this.RecurrenceType = RecurrenceType;
    this.DayComponent = DayComponent;
    this.WeekdayComponent = WeekdayComponent;
    this.MonthComponent = MonthComponent;
    this.Position = Position;
    this.Interval = Interval;
    this.Occurrences = Occurrences;
    this.TimePeriods = TimePeriods;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RecurrenceType = tape[ptr++];
    let DayComponent = tape[ptr++];
    let WeekdayComponent = tape[ptr++];
    let MonthComponent = tape[ptr++];
    let Position = tape[ptr++];
    let Interval = tape[ptr++];
    let Occurrences = tape[ptr++];
    let TimePeriods = tape[ptr++];
    return new IfcRecurrencePattern(expressID, type, RecurrenceType, DayComponent, WeekdayComponent, MonthComponent, Position, Interval, Occurrences, TimePeriods);
  }
  ToTape() {
    let args = [];
    args.push(this.RecurrenceType);
    ;
    args.push(this.DayComponent);
    ;
    args.push(this.WeekdayComponent);
    ;
    args.push(this.MonthComponent);
    ;
    args.push(this.Position);
    ;
    args.push(this.Interval);
    ;
    args.push(this.Occurrences);
    ;
    args.push(this.TimePeriods);
    ;
    return args;
  }
};
var IfcReference = class {
  constructor(expressID, type, TypeIdentifier, AttributeIdentifier, InstanceName, ListPositions, InnerReference) {
    this.expressID = expressID;
    this.type = type;
    this.TypeIdentifier = TypeIdentifier;
    this.AttributeIdentifier = AttributeIdentifier;
    this.InstanceName = InstanceName;
    this.ListPositions = ListPositions;
    this.InnerReference = InnerReference;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TypeIdentifier = tape[ptr++];
    let AttributeIdentifier = tape[ptr++];
    let InstanceName = tape[ptr++];
    let ListPositions = tape[ptr++];
    let InnerReference = tape[ptr++];
    return new IfcReference(expressID, type, TypeIdentifier, AttributeIdentifier, InstanceName, ListPositions, InnerReference);
  }
  ToTape() {
    let args = [];
    args.push(this.TypeIdentifier);
    ;
    args.push(this.AttributeIdentifier);
    ;
    args.push(this.InstanceName);
    ;
    args.push(this.ListPositions);
    ;
    args.push(this.InnerReference);
    ;
    return args;
  }
};
var IfcReferent = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, RestartDistance) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.PredefinedType = PredefinedType;
    this.RestartDistance = RestartDistance;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let RestartDistance = tape[ptr++];
    return new IfcReferent(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, RestartDistance);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.RestartDistance);
    ;
    return args;
  }
};
var IfcRegularTimeSeries = class {
  constructor(expressID, type, Name, Description, StartTime, EndTime, TimeSeriesDataType, DataOrigin, UserDefinedDataOrigin, Unit, TimeStep, Values) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.StartTime = StartTime;
    this.EndTime = EndTime;
    this.TimeSeriesDataType = TimeSeriesDataType;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.Unit = Unit;
    this.TimeStep = TimeStep;
    this.Values = Values;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let StartTime = tape[ptr++];
    let EndTime = tape[ptr++];
    let TimeSeriesDataType = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let Unit = tape[ptr++];
    let TimeStep = tape[ptr++];
    let Values = tape[ptr++];
    return new IfcRegularTimeSeries(expressID, type, Name, Description, StartTime, EndTime, TimeSeriesDataType, DataOrigin, UserDefinedDataOrigin, Unit, TimeStep, Values);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.StartTime);
    ;
    args.push(this.EndTime);
    ;
    args.push(this.TimeSeriesDataType);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.Unit);
    ;
    args.push(this.TimeStep);
    ;
    args.push(this.Values);
    ;
    return args;
  }
};
var IfcReinforcementBarProperties = class {
  constructor(expressID, type, TotalCrossSectionArea, SteelGrade, BarSurface, EffectiveDepth, NominalBarDiameter, BarCount) {
    this.expressID = expressID;
    this.type = type;
    this.TotalCrossSectionArea = TotalCrossSectionArea;
    this.SteelGrade = SteelGrade;
    this.BarSurface = BarSurface;
    this.EffectiveDepth = EffectiveDepth;
    this.NominalBarDiameter = NominalBarDiameter;
    this.BarCount = BarCount;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TotalCrossSectionArea = tape[ptr++];
    let SteelGrade = tape[ptr++];
    let BarSurface = tape[ptr++];
    let EffectiveDepth = tape[ptr++];
    let NominalBarDiameter = tape[ptr++];
    let BarCount = tape[ptr++];
    return new IfcReinforcementBarProperties(expressID, type, TotalCrossSectionArea, SteelGrade, BarSurface, EffectiveDepth, NominalBarDiameter, BarCount);
  }
  ToTape() {
    let args = [];
    args.push(this.TotalCrossSectionArea);
    ;
    args.push(this.SteelGrade);
    ;
    args.push(this.BarSurface);
    ;
    args.push(this.EffectiveDepth);
    ;
    args.push(this.NominalBarDiameter);
    ;
    args.push(this.BarCount);
    ;
    return args;
  }
};
var IfcReinforcementDefinitionProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, DefinitionType, ReinforcementSectionDefinitions) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.DefinitionType = DefinitionType;
    this.ReinforcementSectionDefinitions = ReinforcementSectionDefinitions;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let DefinitionType = tape[ptr++];
    let ReinforcementSectionDefinitions = tape[ptr++];
    return new IfcReinforcementDefinitionProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, DefinitionType, ReinforcementSectionDefinitions);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.DefinitionType);
    ;
    args.push(this.ReinforcementSectionDefinitions);
    ;
    return args;
  }
};
var IfcReinforcingBar = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, NominalDiameter, CrossSectionArea, BarLength, PredefinedType, BarSurface) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.SteelGrade = SteelGrade;
    this.NominalDiameter = NominalDiameter;
    this.CrossSectionArea = CrossSectionArea;
    this.BarLength = BarLength;
    this.PredefinedType = PredefinedType;
    this.BarSurface = BarSurface;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let SteelGrade = tape[ptr++];
    let NominalDiameter = tape[ptr++];
    let CrossSectionArea = tape[ptr++];
    let BarLength = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let BarSurface = tape[ptr++];
    return new IfcReinforcingBar(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, NominalDiameter, CrossSectionArea, BarLength, PredefinedType, BarSurface);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.SteelGrade);
    ;
    args.push(this.NominalDiameter);
    ;
    args.push(this.CrossSectionArea);
    ;
    args.push(this.BarLength);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.BarSurface);
    ;
    return args;
  }
};
var IfcReinforcingBarType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, NominalDiameter, CrossSectionArea, BarLength, BarSurface, BendingShapeCode, BendingParameters) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.NominalDiameter = NominalDiameter;
    this.CrossSectionArea = CrossSectionArea;
    this.BarLength = BarLength;
    this.BarSurface = BarSurface;
    this.BendingShapeCode = BendingShapeCode;
    this.BendingParameters = BendingParameters;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let NominalDiameter = tape[ptr++];
    let CrossSectionArea = tape[ptr++];
    let BarLength = tape[ptr++];
    let BarSurface = tape[ptr++];
    let BendingShapeCode = tape[ptr++];
    let BendingParameters = tape[ptr++];
    return new IfcReinforcingBarType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, NominalDiameter, CrossSectionArea, BarLength, BarSurface, BendingShapeCode, BendingParameters);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.NominalDiameter);
    ;
    args.push(this.CrossSectionArea);
    ;
    args.push(this.BarLength);
    ;
    args.push(this.BarSurface);
    ;
    args.push(this.BendingShapeCode);
    ;
    args.push(this.BendingParameters);
    ;
    return args;
  }
};
var IfcReinforcingElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.SteelGrade = SteelGrade;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let SteelGrade = tape[ptr++];
    return new IfcReinforcingElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.SteelGrade);
    ;
    return args;
  }
};
var IfcReinforcingElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcReinforcingElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcReinforcingMesh = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, MeshLength, MeshWidth, LongitudinalBarNominalDiameter, TransverseBarNominalDiameter, LongitudinalBarCrossSectionArea, TransverseBarCrossSectionArea, LongitudinalBarSpacing, TransverseBarSpacing, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.SteelGrade = SteelGrade;
    this.MeshLength = MeshLength;
    this.MeshWidth = MeshWidth;
    this.LongitudinalBarNominalDiameter = LongitudinalBarNominalDiameter;
    this.TransverseBarNominalDiameter = TransverseBarNominalDiameter;
    this.LongitudinalBarCrossSectionArea = LongitudinalBarCrossSectionArea;
    this.TransverseBarCrossSectionArea = TransverseBarCrossSectionArea;
    this.LongitudinalBarSpacing = LongitudinalBarSpacing;
    this.TransverseBarSpacing = TransverseBarSpacing;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let SteelGrade = tape[ptr++];
    let MeshLength = tape[ptr++];
    let MeshWidth = tape[ptr++];
    let LongitudinalBarNominalDiameter = tape[ptr++];
    let TransverseBarNominalDiameter = tape[ptr++];
    let LongitudinalBarCrossSectionArea = tape[ptr++];
    let TransverseBarCrossSectionArea = tape[ptr++];
    let LongitudinalBarSpacing = tape[ptr++];
    let TransverseBarSpacing = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcReinforcingMesh(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, MeshLength, MeshWidth, LongitudinalBarNominalDiameter, TransverseBarNominalDiameter, LongitudinalBarCrossSectionArea, TransverseBarCrossSectionArea, LongitudinalBarSpacing, TransverseBarSpacing, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.SteelGrade);
    ;
    args.push(this.MeshLength);
    ;
    args.push(this.MeshWidth);
    ;
    args.push(this.LongitudinalBarNominalDiameter);
    ;
    args.push(this.TransverseBarNominalDiameter);
    ;
    args.push(this.LongitudinalBarCrossSectionArea);
    ;
    args.push(this.TransverseBarCrossSectionArea);
    ;
    args.push(this.LongitudinalBarSpacing);
    ;
    args.push(this.TransverseBarSpacing);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcReinforcingMeshType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, MeshLength, MeshWidth, LongitudinalBarNominalDiameter, TransverseBarNominalDiameter, LongitudinalBarCrossSectionArea, TransverseBarCrossSectionArea, LongitudinalBarSpacing, TransverseBarSpacing, BendingShapeCode, BendingParameters) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.MeshLength = MeshLength;
    this.MeshWidth = MeshWidth;
    this.LongitudinalBarNominalDiameter = LongitudinalBarNominalDiameter;
    this.TransverseBarNominalDiameter = TransverseBarNominalDiameter;
    this.LongitudinalBarCrossSectionArea = LongitudinalBarCrossSectionArea;
    this.TransverseBarCrossSectionArea = TransverseBarCrossSectionArea;
    this.LongitudinalBarSpacing = LongitudinalBarSpacing;
    this.TransverseBarSpacing = TransverseBarSpacing;
    this.BendingShapeCode = BendingShapeCode;
    this.BendingParameters = BendingParameters;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let MeshLength = tape[ptr++];
    let MeshWidth = tape[ptr++];
    let LongitudinalBarNominalDiameter = tape[ptr++];
    let TransverseBarNominalDiameter = tape[ptr++];
    let LongitudinalBarCrossSectionArea = tape[ptr++];
    let TransverseBarCrossSectionArea = tape[ptr++];
    let LongitudinalBarSpacing = tape[ptr++];
    let TransverseBarSpacing = tape[ptr++];
    let BendingShapeCode = tape[ptr++];
    let BendingParameters = tape[ptr++];
    return new IfcReinforcingMeshType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, MeshLength, MeshWidth, LongitudinalBarNominalDiameter, TransverseBarNominalDiameter, LongitudinalBarCrossSectionArea, TransverseBarCrossSectionArea, LongitudinalBarSpacing, TransverseBarSpacing, BendingShapeCode, BendingParameters);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.MeshLength);
    ;
    args.push(this.MeshWidth);
    ;
    args.push(this.LongitudinalBarNominalDiameter);
    ;
    args.push(this.TransverseBarNominalDiameter);
    ;
    args.push(this.LongitudinalBarCrossSectionArea);
    ;
    args.push(this.TransverseBarCrossSectionArea);
    ;
    args.push(this.LongitudinalBarSpacing);
    ;
    args.push(this.TransverseBarSpacing);
    ;
    args.push(this.BendingShapeCode);
    ;
    args.push(this.BendingParameters);
    ;
    return args;
  }
};
var IfcRelAggregates = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingObject, RelatedObjects) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingObject = RelatingObject;
    this.RelatedObjects = RelatedObjects;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingObject = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    return new IfcRelAggregates(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingObject, RelatedObjects);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingObject);
    ;
    args.push(this.RelatedObjects);
    ;
    return args;
  }
};
var IfcRelAssigns = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    return new IfcRelAssigns(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    return args;
  }
};
var IfcRelAssignsToActor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingActor, ActingRole) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingActor = RelatingActor;
    this.ActingRole = ActingRole;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingActor = tape[ptr++];
    let ActingRole = tape[ptr++];
    return new IfcRelAssignsToActor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingActor, ActingRole);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingActor);
    ;
    args.push(this.ActingRole);
    ;
    return args;
  }
};
var IfcRelAssignsToControl = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingControl) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingControl = RelatingControl;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingControl = tape[ptr++];
    return new IfcRelAssignsToControl(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingControl);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingControl);
    ;
    return args;
  }
};
var IfcRelAssignsToGroup = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingGroup) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingGroup = RelatingGroup;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingGroup = tape[ptr++];
    return new IfcRelAssignsToGroup(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingGroup);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingGroup);
    ;
    return args;
  }
};
var IfcRelAssignsToGroupByFactor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingGroup, Factor) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingGroup = RelatingGroup;
    this.Factor = Factor;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingGroup = tape[ptr++];
    let Factor = tape[ptr++];
    return new IfcRelAssignsToGroupByFactor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingGroup, Factor);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingGroup);
    ;
    args.push(this.Factor);
    ;
    return args;
  }
};
var IfcRelAssignsToProcess = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingProcess, QuantityInProcess) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingProcess = RelatingProcess;
    this.QuantityInProcess = QuantityInProcess;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingProcess = tape[ptr++];
    let QuantityInProcess = tape[ptr++];
    return new IfcRelAssignsToProcess(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingProcess, QuantityInProcess);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingProcess);
    ;
    args.push(this.QuantityInProcess);
    ;
    return args;
  }
};
var IfcRelAssignsToProduct = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingProduct) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingProduct = RelatingProduct;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingProduct = tape[ptr++];
    return new IfcRelAssignsToProduct(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingProduct);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingProduct);
    ;
    return args;
  }
};
var IfcRelAssignsToResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingResource) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatedObjectsType = RelatedObjectsType;
    this.RelatingResource = RelatingResource;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatedObjectsType = tape[ptr++];
    let RelatingResource = tape[ptr++];
    return new IfcRelAssignsToResource(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatedObjectsType, RelatingResource);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatedObjectsType);
    ;
    args.push(this.RelatingResource);
    ;
    return args;
  }
};
var IfcRelAssociates = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    return new IfcRelAssociates(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    return args;
  }
};
var IfcRelAssociatesApproval = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingApproval) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingApproval = RelatingApproval;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingApproval = tape[ptr++];
    return new IfcRelAssociatesApproval(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingApproval);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingApproval);
    ;
    return args;
  }
};
var IfcRelAssociatesClassification = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingClassification) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingClassification = RelatingClassification;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingClassification = tape[ptr++];
    return new IfcRelAssociatesClassification(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingClassification);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingClassification);
    ;
    return args;
  }
};
var IfcRelAssociatesConstraint = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, Intent, RelatingConstraint) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.Intent = Intent;
    this.RelatingConstraint = RelatingConstraint;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let Intent = tape[ptr++];
    let RelatingConstraint = tape[ptr++];
    return new IfcRelAssociatesConstraint(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, Intent, RelatingConstraint);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.Intent);
    ;
    args.push(this.RelatingConstraint);
    ;
    return args;
  }
};
var IfcRelAssociatesDocument = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingDocument) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingDocument = RelatingDocument;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingDocument = tape[ptr++];
    return new IfcRelAssociatesDocument(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingDocument);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingDocument);
    ;
    return args;
  }
};
var IfcRelAssociatesLibrary = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingLibrary) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingLibrary = RelatingLibrary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingLibrary = tape[ptr++];
    return new IfcRelAssociatesLibrary(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingLibrary);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingLibrary);
    ;
    return args;
  }
};
var IfcRelAssociatesMaterial = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingMaterial) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingMaterial = RelatingMaterial;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingMaterial = tape[ptr++];
    return new IfcRelAssociatesMaterial(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingMaterial);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingMaterial);
    ;
    return args;
  }
};
var IfcRelConnects = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcRelConnects(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcRelConnectsElements = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ConnectionGeometry, RelatingElement, RelatedElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ConnectionGeometry = ConnectionGeometry;
    this.RelatingElement = RelatingElement;
    this.RelatedElement = RelatedElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ConnectionGeometry = tape[ptr++];
    let RelatingElement = tape[ptr++];
    let RelatedElement = tape[ptr++];
    return new IfcRelConnectsElements(expressID, type, GlobalId, OwnerHistory, Name, Description, ConnectionGeometry, RelatingElement, RelatedElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ConnectionGeometry);
    ;
    args.push(this.RelatingElement);
    ;
    args.push(this.RelatedElement);
    ;
    return args;
  }
};
var IfcRelConnectsPathElements = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ConnectionGeometry, RelatingElement, RelatedElement, RelatingPriorities, RelatedPriorities, RelatedConnectionType, RelatingConnectionType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ConnectionGeometry = ConnectionGeometry;
    this.RelatingElement = RelatingElement;
    this.RelatedElement = RelatedElement;
    this.RelatingPriorities = RelatingPriorities;
    this.RelatedPriorities = RelatedPriorities;
    this.RelatedConnectionType = RelatedConnectionType;
    this.RelatingConnectionType = RelatingConnectionType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ConnectionGeometry = tape[ptr++];
    let RelatingElement = tape[ptr++];
    let RelatedElement = tape[ptr++];
    let RelatingPriorities = tape[ptr++];
    let RelatedPriorities = tape[ptr++];
    let RelatedConnectionType = tape[ptr++];
    let RelatingConnectionType = tape[ptr++];
    return new IfcRelConnectsPathElements(expressID, type, GlobalId, OwnerHistory, Name, Description, ConnectionGeometry, RelatingElement, RelatedElement, RelatingPriorities, RelatedPriorities, RelatedConnectionType, RelatingConnectionType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ConnectionGeometry);
    ;
    args.push(this.RelatingElement);
    ;
    args.push(this.RelatedElement);
    ;
    args.push(this.RelatingPriorities);
    ;
    args.push(this.RelatedPriorities);
    ;
    args.push(this.RelatedConnectionType);
    ;
    args.push(this.RelatingConnectionType);
    ;
    return args;
  }
};
var IfcRelConnectsPortToElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingPort, RelatedElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingPort = RelatingPort;
    this.RelatedElement = RelatedElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingPort = tape[ptr++];
    let RelatedElement = tape[ptr++];
    return new IfcRelConnectsPortToElement(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingPort, RelatedElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingPort);
    ;
    args.push(this.RelatedElement);
    ;
    return args;
  }
};
var IfcRelConnectsPorts = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingPort, RelatedPort, RealizingElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingPort = RelatingPort;
    this.RelatedPort = RelatedPort;
    this.RealizingElement = RealizingElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingPort = tape[ptr++];
    let RelatedPort = tape[ptr++];
    let RealizingElement = tape[ptr++];
    return new IfcRelConnectsPorts(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingPort, RelatedPort, RealizingElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingPort);
    ;
    args.push(this.RelatedPort);
    ;
    args.push(this.RealizingElement);
    ;
    return args;
  }
};
var IfcRelConnectsStructuralActivity = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingElement, RelatedStructuralActivity) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingElement = RelatingElement;
    this.RelatedStructuralActivity = RelatedStructuralActivity;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingElement = tape[ptr++];
    let RelatedStructuralActivity = tape[ptr++];
    return new IfcRelConnectsStructuralActivity(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingElement, RelatedStructuralActivity);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingElement);
    ;
    args.push(this.RelatedStructuralActivity);
    ;
    return args;
  }
};
var IfcRelConnectsStructuralMember = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingStructuralMember, RelatedStructuralConnection, AppliedCondition, AdditionalConditions, SupportedLength, ConditionCoordinateSystem) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingStructuralMember = RelatingStructuralMember;
    this.RelatedStructuralConnection = RelatedStructuralConnection;
    this.AppliedCondition = AppliedCondition;
    this.AdditionalConditions = AdditionalConditions;
    this.SupportedLength = SupportedLength;
    this.ConditionCoordinateSystem = ConditionCoordinateSystem;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingStructuralMember = tape[ptr++];
    let RelatedStructuralConnection = tape[ptr++];
    let AppliedCondition = tape[ptr++];
    let AdditionalConditions = tape[ptr++];
    let SupportedLength = tape[ptr++];
    let ConditionCoordinateSystem = tape[ptr++];
    return new IfcRelConnectsStructuralMember(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingStructuralMember, RelatedStructuralConnection, AppliedCondition, AdditionalConditions, SupportedLength, ConditionCoordinateSystem);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingStructuralMember);
    ;
    args.push(this.RelatedStructuralConnection);
    ;
    args.push(this.AppliedCondition);
    ;
    args.push(this.AdditionalConditions);
    ;
    args.push(this.SupportedLength);
    ;
    args.push(this.ConditionCoordinateSystem);
    ;
    return args;
  }
};
var IfcRelConnectsWithEccentricity = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingStructuralMember, RelatedStructuralConnection, AppliedCondition, AdditionalConditions, SupportedLength, ConditionCoordinateSystem, ConnectionConstraint) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingStructuralMember = RelatingStructuralMember;
    this.RelatedStructuralConnection = RelatedStructuralConnection;
    this.AppliedCondition = AppliedCondition;
    this.AdditionalConditions = AdditionalConditions;
    this.SupportedLength = SupportedLength;
    this.ConditionCoordinateSystem = ConditionCoordinateSystem;
    this.ConnectionConstraint = ConnectionConstraint;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingStructuralMember = tape[ptr++];
    let RelatedStructuralConnection = tape[ptr++];
    let AppliedCondition = tape[ptr++];
    let AdditionalConditions = tape[ptr++];
    let SupportedLength = tape[ptr++];
    let ConditionCoordinateSystem = tape[ptr++];
    let ConnectionConstraint = tape[ptr++];
    return new IfcRelConnectsWithEccentricity(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingStructuralMember, RelatedStructuralConnection, AppliedCondition, AdditionalConditions, SupportedLength, ConditionCoordinateSystem, ConnectionConstraint);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingStructuralMember);
    ;
    args.push(this.RelatedStructuralConnection);
    ;
    args.push(this.AppliedCondition);
    ;
    args.push(this.AdditionalConditions);
    ;
    args.push(this.SupportedLength);
    ;
    args.push(this.ConditionCoordinateSystem);
    ;
    args.push(this.ConnectionConstraint);
    ;
    return args;
  }
};
var IfcRelConnectsWithRealizingElements = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ConnectionGeometry, RelatingElement, RelatedElement, RealizingElements, ConnectionType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ConnectionGeometry = ConnectionGeometry;
    this.RelatingElement = RelatingElement;
    this.RelatedElement = RelatedElement;
    this.RealizingElements = RealizingElements;
    this.ConnectionType = ConnectionType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ConnectionGeometry = tape[ptr++];
    let RelatingElement = tape[ptr++];
    let RelatedElement = tape[ptr++];
    let RealizingElements = tape[ptr++];
    let ConnectionType = tape[ptr++];
    return new IfcRelConnectsWithRealizingElements(expressID, type, GlobalId, OwnerHistory, Name, Description, ConnectionGeometry, RelatingElement, RelatedElement, RealizingElements, ConnectionType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ConnectionGeometry);
    ;
    args.push(this.RelatingElement);
    ;
    args.push(this.RelatedElement);
    ;
    args.push(this.RealizingElements);
    ;
    args.push(this.ConnectionType);
    ;
    return args;
  }
};
var IfcRelContainedInSpatialStructure = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedElements, RelatingStructure) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedElements = RelatedElements;
    this.RelatingStructure = RelatingStructure;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedElements = tape[ptr++];
    let RelatingStructure = tape[ptr++];
    return new IfcRelContainedInSpatialStructure(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedElements, RelatingStructure);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedElements);
    ;
    args.push(this.RelatingStructure);
    ;
    return args;
  }
};
var IfcRelCoversBldgElements = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingBuildingElement, RelatedCoverings) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingBuildingElement = RelatingBuildingElement;
    this.RelatedCoverings = RelatedCoverings;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingBuildingElement = tape[ptr++];
    let RelatedCoverings = tape[ptr++];
    return new IfcRelCoversBldgElements(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingBuildingElement, RelatedCoverings);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingBuildingElement);
    ;
    args.push(this.RelatedCoverings);
    ;
    return args;
  }
};
var IfcRelCoversSpaces = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedCoverings) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingSpace = RelatingSpace;
    this.RelatedCoverings = RelatedCoverings;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingSpace = tape[ptr++];
    let RelatedCoverings = tape[ptr++];
    return new IfcRelCoversSpaces(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedCoverings);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingSpace);
    ;
    args.push(this.RelatedCoverings);
    ;
    return args;
  }
};
var IfcRelDeclares = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingContext, RelatedDefinitions) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingContext = RelatingContext;
    this.RelatedDefinitions = RelatedDefinitions;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingContext = tape[ptr++];
    let RelatedDefinitions = tape[ptr++];
    return new IfcRelDeclares(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingContext, RelatedDefinitions);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingContext);
    ;
    args.push(this.RelatedDefinitions);
    ;
    return args;
  }
};
var IfcRelDecomposes = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcRelDecomposes(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcRelDefines = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcRelDefines(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcRelDefinesByObject = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingObject) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingObject = RelatingObject;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingObject = tape[ptr++];
    return new IfcRelDefinesByObject(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingObject);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingObject);
    ;
    return args;
  }
};
var IfcRelDefinesByProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingPropertyDefinition) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingPropertyDefinition = RelatingPropertyDefinition;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingPropertyDefinition = tape[ptr++];
    return new IfcRelDefinesByProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingPropertyDefinition);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingPropertyDefinition);
    ;
    return args;
  }
};
var IfcRelDefinesByTemplate = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedPropertySets, RelatingTemplate) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedPropertySets = RelatedPropertySets;
    this.RelatingTemplate = RelatingTemplate;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedPropertySets = tape[ptr++];
    let RelatingTemplate = tape[ptr++];
    return new IfcRelDefinesByTemplate(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedPropertySets, RelatingTemplate);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedPropertySets);
    ;
    args.push(this.RelatingTemplate);
    ;
    return args;
  }
};
var IfcRelDefinesByType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedObjects = RelatedObjects;
    this.RelatingType = RelatingType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    let RelatingType = tape[ptr++];
    return new IfcRelDefinesByType(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedObjects, RelatingType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedObjects);
    ;
    args.push(this.RelatingType);
    ;
    return args;
  }
};
var IfcRelFillsElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingOpeningElement, RelatedBuildingElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingOpeningElement = RelatingOpeningElement;
    this.RelatedBuildingElement = RelatedBuildingElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingOpeningElement = tape[ptr++];
    let RelatedBuildingElement = tape[ptr++];
    return new IfcRelFillsElement(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingOpeningElement, RelatedBuildingElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingOpeningElement);
    ;
    args.push(this.RelatedBuildingElement);
    ;
    return args;
  }
};
var IfcRelFlowControlElements = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedControlElements, RelatingFlowElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedControlElements = RelatedControlElements;
    this.RelatingFlowElement = RelatingFlowElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedControlElements = tape[ptr++];
    let RelatingFlowElement = tape[ptr++];
    return new IfcRelFlowControlElements(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedControlElements, RelatingFlowElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedControlElements);
    ;
    args.push(this.RelatingFlowElement);
    ;
    return args;
  }
};
var IfcRelInterferesElements = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingElement, RelatedElement, InterferenceGeometry, InterferenceType, ImpliedOrder) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingElement = RelatingElement;
    this.RelatedElement = RelatedElement;
    this.InterferenceGeometry = InterferenceGeometry;
    this.InterferenceType = InterferenceType;
    this.ImpliedOrder = ImpliedOrder;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingElement = tape[ptr++];
    let RelatedElement = tape[ptr++];
    let InterferenceGeometry = tape[ptr++];
    let InterferenceType = tape[ptr++];
    let ImpliedOrder = tape[ptr++];
    return new IfcRelInterferesElements(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingElement, RelatedElement, InterferenceGeometry, InterferenceType, ImpliedOrder);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingElement);
    ;
    args.push(this.RelatedElement);
    ;
    args.push(this.InterferenceGeometry);
    ;
    args.push(this.InterferenceType);
    ;
    args.push(this.ImpliedOrder);
    ;
    return args;
  }
};
var IfcRelNests = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingObject, RelatedObjects) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingObject = RelatingObject;
    this.RelatedObjects = RelatedObjects;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingObject = tape[ptr++];
    let RelatedObjects = tape[ptr++];
    return new IfcRelNests(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingObject, RelatedObjects);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingObject);
    ;
    args.push(this.RelatedObjects);
    ;
    return args;
  }
};
var IfcRelPositions = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingPositioningElement, RelatedProducts) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingPositioningElement = RelatingPositioningElement;
    this.RelatedProducts = RelatedProducts;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingPositioningElement = tape[ptr++];
    let RelatedProducts = tape[ptr++];
    return new IfcRelPositions(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingPositioningElement, RelatedProducts);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingPositioningElement);
    ;
    args.push(this.RelatedProducts);
    ;
    return args;
  }
};
var IfcRelProjectsElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingElement, RelatedFeatureElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingElement = RelatingElement;
    this.RelatedFeatureElement = RelatedFeatureElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingElement = tape[ptr++];
    let RelatedFeatureElement = tape[ptr++];
    return new IfcRelProjectsElement(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingElement, RelatedFeatureElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingElement);
    ;
    args.push(this.RelatedFeatureElement);
    ;
    return args;
  }
};
var IfcRelReferencedInSpatialStructure = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedElements, RelatingStructure) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatedElements = RelatedElements;
    this.RelatingStructure = RelatingStructure;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedElements = tape[ptr++];
    let RelatingStructure = tape[ptr++];
    return new IfcRelReferencedInSpatialStructure(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatedElements, RelatingStructure);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedElements);
    ;
    args.push(this.RelatingStructure);
    ;
    return args;
  }
};
var IfcRelSequence = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingProcess, RelatedProcess, TimeLag, SequenceType, UserDefinedSequenceType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingProcess = RelatingProcess;
    this.RelatedProcess = RelatedProcess;
    this.TimeLag = TimeLag;
    this.SequenceType = SequenceType;
    this.UserDefinedSequenceType = UserDefinedSequenceType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingProcess = tape[ptr++];
    let RelatedProcess = tape[ptr++];
    let TimeLag = tape[ptr++];
    let SequenceType = tape[ptr++];
    let UserDefinedSequenceType = tape[ptr++];
    return new IfcRelSequence(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingProcess, RelatedProcess, TimeLag, SequenceType, UserDefinedSequenceType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingProcess);
    ;
    args.push(this.RelatedProcess);
    ;
    args.push(this.TimeLag);
    ;
    args.push(this.SequenceType);
    ;
    args.push(this.UserDefinedSequenceType);
    ;
    return args;
  }
};
var IfcRelServicesBuildings = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSystem, RelatedBuildings) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingSystem = RelatingSystem;
    this.RelatedBuildings = RelatedBuildings;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingSystem = tape[ptr++];
    let RelatedBuildings = tape[ptr++];
    return new IfcRelServicesBuildings(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSystem, RelatedBuildings);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingSystem);
    ;
    args.push(this.RelatedBuildings);
    ;
    return args;
  }
};
var IfcRelSpaceBoundary = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedBuildingElement, ConnectionGeometry, PhysicalOrVirtualBoundary, InternalOrExternalBoundary) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingSpace = RelatingSpace;
    this.RelatedBuildingElement = RelatedBuildingElement;
    this.ConnectionGeometry = ConnectionGeometry;
    this.PhysicalOrVirtualBoundary = PhysicalOrVirtualBoundary;
    this.InternalOrExternalBoundary = InternalOrExternalBoundary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingSpace = tape[ptr++];
    let RelatedBuildingElement = tape[ptr++];
    let ConnectionGeometry = tape[ptr++];
    let PhysicalOrVirtualBoundary = tape[ptr++];
    let InternalOrExternalBoundary = tape[ptr++];
    return new IfcRelSpaceBoundary(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedBuildingElement, ConnectionGeometry, PhysicalOrVirtualBoundary, InternalOrExternalBoundary);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingSpace);
    ;
    args.push(this.RelatedBuildingElement);
    ;
    args.push(this.ConnectionGeometry);
    ;
    args.push(this.PhysicalOrVirtualBoundary);
    ;
    args.push(this.InternalOrExternalBoundary);
    ;
    return args;
  }
};
var IfcRelSpaceBoundary1stLevel = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedBuildingElement, ConnectionGeometry, PhysicalOrVirtualBoundary, InternalOrExternalBoundary, ParentBoundary) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingSpace = RelatingSpace;
    this.RelatedBuildingElement = RelatedBuildingElement;
    this.ConnectionGeometry = ConnectionGeometry;
    this.PhysicalOrVirtualBoundary = PhysicalOrVirtualBoundary;
    this.InternalOrExternalBoundary = InternalOrExternalBoundary;
    this.ParentBoundary = ParentBoundary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingSpace = tape[ptr++];
    let RelatedBuildingElement = tape[ptr++];
    let ConnectionGeometry = tape[ptr++];
    let PhysicalOrVirtualBoundary = tape[ptr++];
    let InternalOrExternalBoundary = tape[ptr++];
    let ParentBoundary = tape[ptr++];
    return new IfcRelSpaceBoundary1stLevel(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedBuildingElement, ConnectionGeometry, PhysicalOrVirtualBoundary, InternalOrExternalBoundary, ParentBoundary);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingSpace);
    ;
    args.push(this.RelatedBuildingElement);
    ;
    args.push(this.ConnectionGeometry);
    ;
    args.push(this.PhysicalOrVirtualBoundary);
    ;
    args.push(this.InternalOrExternalBoundary);
    ;
    args.push(this.ParentBoundary);
    ;
    return args;
  }
};
var IfcRelSpaceBoundary2ndLevel = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedBuildingElement, ConnectionGeometry, PhysicalOrVirtualBoundary, InternalOrExternalBoundary, ParentBoundary, CorrespondingBoundary) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingSpace = RelatingSpace;
    this.RelatedBuildingElement = RelatedBuildingElement;
    this.ConnectionGeometry = ConnectionGeometry;
    this.PhysicalOrVirtualBoundary = PhysicalOrVirtualBoundary;
    this.InternalOrExternalBoundary = InternalOrExternalBoundary;
    this.ParentBoundary = ParentBoundary;
    this.CorrespondingBoundary = CorrespondingBoundary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingSpace = tape[ptr++];
    let RelatedBuildingElement = tape[ptr++];
    let ConnectionGeometry = tape[ptr++];
    let PhysicalOrVirtualBoundary = tape[ptr++];
    let InternalOrExternalBoundary = tape[ptr++];
    let ParentBoundary = tape[ptr++];
    let CorrespondingBoundary = tape[ptr++];
    return new IfcRelSpaceBoundary2ndLevel(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingSpace, RelatedBuildingElement, ConnectionGeometry, PhysicalOrVirtualBoundary, InternalOrExternalBoundary, ParentBoundary, CorrespondingBoundary);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingSpace);
    ;
    args.push(this.RelatedBuildingElement);
    ;
    args.push(this.ConnectionGeometry);
    ;
    args.push(this.PhysicalOrVirtualBoundary);
    ;
    args.push(this.InternalOrExternalBoundary);
    ;
    args.push(this.ParentBoundary);
    ;
    args.push(this.CorrespondingBoundary);
    ;
    return args;
  }
};
var IfcRelVoidsElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingBuildingElement, RelatedOpeningElement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.RelatingBuildingElement = RelatingBuildingElement;
    this.RelatedOpeningElement = RelatedOpeningElement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingBuildingElement = tape[ptr++];
    let RelatedOpeningElement = tape[ptr++];
    return new IfcRelVoidsElement(expressID, type, GlobalId, OwnerHistory, Name, Description, RelatingBuildingElement, RelatedOpeningElement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingBuildingElement);
    ;
    args.push(this.RelatedOpeningElement);
    ;
    return args;
  }
};
var IfcRelationship = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcRelationship(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcReparametrisedCompositeCurveSegment = class {
  constructor(expressID, type, Transition, SameSense, ParentCurve, ParamLength) {
    this.expressID = expressID;
    this.type = type;
    this.Transition = Transition;
    this.SameSense = SameSense;
    this.ParentCurve = ParentCurve;
    this.ParamLength = ParamLength;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Transition = tape[ptr++];
    let SameSense = tape[ptr++];
    let ParentCurve = tape[ptr++];
    let ParamLength = tape[ptr++];
    return new IfcReparametrisedCompositeCurveSegment(expressID, type, Transition, SameSense, ParentCurve, ParamLength);
  }
  ToTape() {
    let args = [];
    args.push(this.Transition);
    ;
    args.push(this.SameSense);
    ;
    args.push(this.ParentCurve);
    ;
    args.push(this.ParamLength);
    ;
    return args;
  }
};
var IfcRepresentation = class {
  constructor(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items) {
    this.expressID = expressID;
    this.type = type;
    this.ContextOfItems = ContextOfItems;
    this.RepresentationIdentifier = RepresentationIdentifier;
    this.RepresentationType = RepresentationType;
    this.Items = Items;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextOfItems = tape[ptr++];
    let RepresentationIdentifier = tape[ptr++];
    let RepresentationType = tape[ptr++];
    let Items = tape[ptr++];
    return new IfcRepresentation(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextOfItems);
    ;
    args.push(this.RepresentationIdentifier);
    ;
    args.push(this.RepresentationType);
    ;
    args.push(this.Items);
    ;
    return args;
  }
};
var IfcRepresentationContext = class {
  constructor(expressID, type, ContextIdentifier, ContextType) {
    this.expressID = expressID;
    this.type = type;
    this.ContextIdentifier = ContextIdentifier;
    this.ContextType = ContextType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextIdentifier = tape[ptr++];
    let ContextType = tape[ptr++];
    return new IfcRepresentationContext(expressID, type, ContextIdentifier, ContextType);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextIdentifier);
    ;
    args.push(this.ContextType);
    ;
    return args;
  }
};
var IfcRepresentationItem = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcRepresentationItem(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcRepresentationMap = class {
  constructor(expressID, type, MappingOrigin, MappedRepresentation) {
    this.expressID = expressID;
    this.type = type;
    this.MappingOrigin = MappingOrigin;
    this.MappedRepresentation = MappedRepresentation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let MappingOrigin = tape[ptr++];
    let MappedRepresentation = tape[ptr++];
    return new IfcRepresentationMap(expressID, type, MappingOrigin, MappedRepresentation);
  }
  ToTape() {
    let args = [];
    args.push(this.MappingOrigin);
    ;
    args.push(this.MappedRepresentation);
    ;
    return args;
  }
};
var IfcResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    return new IfcResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    return args;
  }
};
var IfcResourceApprovalRelationship = class {
  constructor(expressID, type, Name, Description, RelatedResourceObjects, RelatingApproval) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatedResourceObjects = RelatedResourceObjects;
    this.RelatingApproval = RelatingApproval;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatedResourceObjects = tape[ptr++];
    let RelatingApproval = tape[ptr++];
    return new IfcResourceApprovalRelationship(expressID, type, Name, Description, RelatedResourceObjects, RelatingApproval);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatedResourceObjects);
    ;
    args.push(this.RelatingApproval);
    ;
    return args;
  }
};
var IfcResourceConstraintRelationship = class {
  constructor(expressID, type, Name, Description, RelatingConstraint, RelatedResourceObjects) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.RelatingConstraint = RelatingConstraint;
    this.RelatedResourceObjects = RelatedResourceObjects;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let RelatingConstraint = tape[ptr++];
    let RelatedResourceObjects = tape[ptr++];
    return new IfcResourceConstraintRelationship(expressID, type, Name, Description, RelatingConstraint, RelatedResourceObjects);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.RelatingConstraint);
    ;
    args.push(this.RelatedResourceObjects);
    ;
    return args;
  }
};
var IfcResourceLevelRelationship = class {
  constructor(expressID, type, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcResourceLevelRelationship(expressID, type, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcResourceTime = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, ScheduleWork, ScheduleUsage, ScheduleStart, ScheduleFinish, ScheduleContour, LevelingDelay, IsOverAllocated, StatusTime, ActualWork, ActualUsage, ActualStart, ActualFinish, RemainingWork, RemainingUsage, Completion) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.ScheduleWork = ScheduleWork;
    this.ScheduleUsage = ScheduleUsage;
    this.ScheduleStart = ScheduleStart;
    this.ScheduleFinish = ScheduleFinish;
    this.ScheduleContour = ScheduleContour;
    this.LevelingDelay = LevelingDelay;
    this.IsOverAllocated = IsOverAllocated;
    this.StatusTime = StatusTime;
    this.ActualWork = ActualWork;
    this.ActualUsage = ActualUsage;
    this.ActualStart = ActualStart;
    this.ActualFinish = ActualFinish;
    this.RemainingWork = RemainingWork;
    this.RemainingUsage = RemainingUsage;
    this.Completion = Completion;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let ScheduleWork = tape[ptr++];
    let ScheduleUsage = tape[ptr++];
    let ScheduleStart = tape[ptr++];
    let ScheduleFinish = tape[ptr++];
    let ScheduleContour = tape[ptr++];
    let LevelingDelay = tape[ptr++];
    let IsOverAllocated = tape[ptr++];
    let StatusTime = tape[ptr++];
    let ActualWork = tape[ptr++];
    let ActualUsage = tape[ptr++];
    let ActualStart = tape[ptr++];
    let ActualFinish = tape[ptr++];
    let RemainingWork = tape[ptr++];
    let RemainingUsage = tape[ptr++];
    let Completion = tape[ptr++];
    return new IfcResourceTime(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, ScheduleWork, ScheduleUsage, ScheduleStart, ScheduleFinish, ScheduleContour, LevelingDelay, IsOverAllocated, StatusTime, ActualWork, ActualUsage, ActualStart, ActualFinish, RemainingWork, RemainingUsage, Completion);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.ScheduleWork);
    ;
    args.push(this.ScheduleUsage);
    ;
    args.push(this.ScheduleStart);
    ;
    args.push(this.ScheduleFinish);
    ;
    args.push(this.ScheduleContour);
    ;
    args.push(this.LevelingDelay);
    ;
    args.push(this.IsOverAllocated);
    ;
    args.push(this.StatusTime);
    ;
    args.push(this.ActualWork);
    ;
    args.push(this.ActualUsage);
    ;
    args.push(this.ActualStart);
    ;
    args.push(this.ActualFinish);
    ;
    args.push(this.RemainingWork);
    ;
    args.push(this.RemainingUsage);
    ;
    args.push(this.Completion);
    ;
    return args;
  }
};
var IfcRevolvedAreaSolid = class {
  constructor(expressID, type, SweptArea, Position, Axis, Angle) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
    this.Axis = Axis;
    this.Angle = Angle;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    let Axis = tape[ptr++];
    let Angle = tape[ptr++];
    return new IfcRevolvedAreaSolid(expressID, type, SweptArea, Position, Axis, Angle);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    args.push(this.Axis);
    ;
    args.push(this.Angle);
    ;
    return args;
  }
};
var IfcRevolvedAreaSolidTapered = class {
  constructor(expressID, type, SweptArea, Position, Axis, Angle, EndSweptArea) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
    this.Axis = Axis;
    this.Angle = Angle;
    this.EndSweptArea = EndSweptArea;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    let Axis = tape[ptr++];
    let Angle = tape[ptr++];
    let EndSweptArea = tape[ptr++];
    return new IfcRevolvedAreaSolidTapered(expressID, type, SweptArea, Position, Axis, Angle, EndSweptArea);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    args.push(this.Axis);
    ;
    args.push(this.Angle);
    ;
    args.push(this.EndSweptArea);
    ;
    return args;
  }
};
var IfcRightCircularCone = class {
  constructor(expressID, type, Position, Height, BottomRadius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.Height = Height;
    this.BottomRadius = BottomRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let Height = tape[ptr++];
    let BottomRadius = tape[ptr++];
    return new IfcRightCircularCone(expressID, type, Position, Height, BottomRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.Height);
    ;
    args.push(this.BottomRadius);
    ;
    return args;
  }
};
var IfcRightCircularCylinder = class {
  constructor(expressID, type, Position, Height, Radius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.Height = Height;
    this.Radius = Radius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let Height = tape[ptr++];
    let Radius = tape[ptr++];
    return new IfcRightCircularCylinder(expressID, type, Position, Height, Radius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.Height);
    ;
    args.push(this.Radius);
    ;
    return args;
  }
};
var IfcRoof = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRoof(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRoofType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcRoofType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcRoot = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcRoot(expressID, type, GlobalId, OwnerHistory, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcRoundedRectangleProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, XDim, YDim, RoundingRadius) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.XDim = XDim;
    this.YDim = YDim;
    this.RoundingRadius = RoundingRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let XDim = tape[ptr++];
    let YDim = tape[ptr++];
    let RoundingRadius = tape[ptr++];
    return new IfcRoundedRectangleProfileDef(expressID, type, ProfileType, ProfileName, Position, XDim, YDim, RoundingRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.XDim);
    ;
    args.push(this.YDim);
    ;
    args.push(this.RoundingRadius);
    ;
    return args;
  }
};
var IfcSIUnit = class {
  constructor(expressID, type, Dimensions, UnitType, Prefix, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Dimensions = Dimensions;
    this.UnitType = UnitType;
    this.Prefix = Prefix;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Dimensions = tape[ptr++];
    let UnitType = tape[ptr++];
    let Prefix = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcSIUnit(expressID, type, Dimensions, UnitType, Prefix, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Dimensions);
    ;
    args.push(this.UnitType);
    ;
    args.push(this.Prefix);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcSanitaryTerminal = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSanitaryTerminal(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSanitaryTerminalType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSanitaryTerminalType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSchedulingTime = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    return new IfcSchedulingTime(expressID, type, Name, DataOrigin, UserDefinedDataOrigin);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    return args;
  }
};
var IfcSeamCurve = class {
  constructor(expressID, type, Curve3D, AssociatedGeometry, MasterRepresentation) {
    this.expressID = expressID;
    this.type = type;
    this.Curve3D = Curve3D;
    this.AssociatedGeometry = AssociatedGeometry;
    this.MasterRepresentation = MasterRepresentation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Curve3D = tape[ptr++];
    let AssociatedGeometry = tape[ptr++];
    let MasterRepresentation = tape[ptr++];
    return new IfcSeamCurve(expressID, type, Curve3D, AssociatedGeometry, MasterRepresentation);
  }
  ToTape() {
    let args = [];
    args.push(this.Curve3D);
    ;
    args.push(this.AssociatedGeometry);
    ;
    args.push(this.MasterRepresentation);
    ;
    return args;
  }
};
var IfcSectionProperties = class {
  constructor(expressID, type, SectionType, StartProfile, EndProfile) {
    this.expressID = expressID;
    this.type = type;
    this.SectionType = SectionType;
    this.StartProfile = StartProfile;
    this.EndProfile = EndProfile;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SectionType = tape[ptr++];
    let StartProfile = tape[ptr++];
    let EndProfile = tape[ptr++];
    return new IfcSectionProperties(expressID, type, SectionType, StartProfile, EndProfile);
  }
  ToTape() {
    let args = [];
    args.push(this.SectionType);
    ;
    args.push(this.StartProfile);
    ;
    args.push(this.EndProfile);
    ;
    return args;
  }
};
var IfcSectionReinforcementProperties = class {
  constructor(expressID, type, LongitudinalStartPosition, LongitudinalEndPosition, TransversePosition, ReinforcementRole, SectionDefinition, CrossSectionReinforcementDefinitions) {
    this.expressID = expressID;
    this.type = type;
    this.LongitudinalStartPosition = LongitudinalStartPosition;
    this.LongitudinalEndPosition = LongitudinalEndPosition;
    this.TransversePosition = TransversePosition;
    this.ReinforcementRole = ReinforcementRole;
    this.SectionDefinition = SectionDefinition;
    this.CrossSectionReinforcementDefinitions = CrossSectionReinforcementDefinitions;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let LongitudinalStartPosition = tape[ptr++];
    let LongitudinalEndPosition = tape[ptr++];
    let TransversePosition = tape[ptr++];
    let ReinforcementRole = tape[ptr++];
    let SectionDefinition = tape[ptr++];
    let CrossSectionReinforcementDefinitions = tape[ptr++];
    return new IfcSectionReinforcementProperties(expressID, type, LongitudinalStartPosition, LongitudinalEndPosition, TransversePosition, ReinforcementRole, SectionDefinition, CrossSectionReinforcementDefinitions);
  }
  ToTape() {
    let args = [];
    args.push(this.LongitudinalStartPosition);
    ;
    args.push(this.LongitudinalEndPosition);
    ;
    args.push(this.TransversePosition);
    ;
    args.push(this.ReinforcementRole);
    ;
    args.push(this.SectionDefinition);
    ;
    args.push(this.CrossSectionReinforcementDefinitions);
    ;
    return args;
  }
};
var IfcSectionedSolid = class {
  constructor(expressID, type, Directrix, CrossSections) {
    this.expressID = expressID;
    this.type = type;
    this.Directrix = Directrix;
    this.CrossSections = CrossSections;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Directrix = tape[ptr++];
    let CrossSections = tape[ptr++];
    return new IfcSectionedSolid(expressID, type, Directrix, CrossSections);
  }
  ToTape() {
    let args = [];
    args.push(this.Directrix);
    ;
    args.push(this.CrossSections);
    ;
    return args;
  }
};
var IfcSectionedSolidHorizontal = class {
  constructor(expressID, type, Directrix, CrossSections, CrossSectionPositions, FixedAxisVertical) {
    this.expressID = expressID;
    this.type = type;
    this.Directrix = Directrix;
    this.CrossSections = CrossSections;
    this.CrossSectionPositions = CrossSectionPositions;
    this.FixedAxisVertical = FixedAxisVertical;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Directrix = tape[ptr++];
    let CrossSections = tape[ptr++];
    let CrossSectionPositions = tape[ptr++];
    let FixedAxisVertical = tape[ptr++];
    return new IfcSectionedSolidHorizontal(expressID, type, Directrix, CrossSections, CrossSectionPositions, FixedAxisVertical);
  }
  ToTape() {
    let args = [];
    args.push(this.Directrix);
    ;
    args.push(this.CrossSections);
    ;
    args.push(this.CrossSectionPositions);
    ;
    args.push(this.FixedAxisVertical);
    ;
    return args;
  }
};
var IfcSectionedSpine = class {
  constructor(expressID, type, SpineCurve, CrossSections, CrossSectionPositions) {
    this.expressID = expressID;
    this.type = type;
    this.SpineCurve = SpineCurve;
    this.CrossSections = CrossSections;
    this.CrossSectionPositions = CrossSectionPositions;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SpineCurve = tape[ptr++];
    let CrossSections = tape[ptr++];
    let CrossSectionPositions = tape[ptr++];
    return new IfcSectionedSpine(expressID, type, SpineCurve, CrossSections, CrossSectionPositions);
  }
  ToTape() {
    let args = [];
    args.push(this.SpineCurve);
    ;
    args.push(this.CrossSections);
    ;
    args.push(this.CrossSectionPositions);
    ;
    return args;
  }
};
var IfcSensor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSensor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSensorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSensorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcShadingDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcShadingDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcShadingDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcShadingDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcShapeAspect = class {
  constructor(expressID, type, ShapeRepresentations, Name, Description, ProductDefinitional, PartOfProductDefinitionShape) {
    this.expressID = expressID;
    this.type = type;
    this.ShapeRepresentations = ShapeRepresentations;
    this.Name = Name;
    this.Description = Description;
    this.ProductDefinitional = ProductDefinitional;
    this.PartOfProductDefinitionShape = PartOfProductDefinitionShape;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ShapeRepresentations = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ProductDefinitional = tape[ptr++];
    let PartOfProductDefinitionShape = tape[ptr++];
    return new IfcShapeAspect(expressID, type, ShapeRepresentations, Name, Description, ProductDefinitional, PartOfProductDefinitionShape);
  }
  ToTape() {
    let args = [];
    args.push(this.ShapeRepresentations);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ProductDefinitional);
    ;
    args.push(this.PartOfProductDefinitionShape);
    ;
    return args;
  }
};
var IfcShapeModel = class {
  constructor(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items) {
    this.expressID = expressID;
    this.type = type;
    this.ContextOfItems = ContextOfItems;
    this.RepresentationIdentifier = RepresentationIdentifier;
    this.RepresentationType = RepresentationType;
    this.Items = Items;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextOfItems = tape[ptr++];
    let RepresentationIdentifier = tape[ptr++];
    let RepresentationType = tape[ptr++];
    let Items = tape[ptr++];
    return new IfcShapeModel(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextOfItems);
    ;
    args.push(this.RepresentationIdentifier);
    ;
    args.push(this.RepresentationType);
    ;
    args.push(this.Items);
    ;
    return args;
  }
};
var IfcShapeRepresentation = class {
  constructor(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items) {
    this.expressID = expressID;
    this.type = type;
    this.ContextOfItems = ContextOfItems;
    this.RepresentationIdentifier = RepresentationIdentifier;
    this.RepresentationType = RepresentationType;
    this.Items = Items;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextOfItems = tape[ptr++];
    let RepresentationIdentifier = tape[ptr++];
    let RepresentationType = tape[ptr++];
    let Items = tape[ptr++];
    return new IfcShapeRepresentation(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextOfItems);
    ;
    args.push(this.RepresentationIdentifier);
    ;
    args.push(this.RepresentationType);
    ;
    args.push(this.Items);
    ;
    return args;
  }
};
var IfcShellBasedSurfaceModel = class {
  constructor(expressID, type, SbsmBoundary) {
    this.expressID = expressID;
    this.type = type;
    this.SbsmBoundary = SbsmBoundary;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SbsmBoundary = tape[ptr++];
    return new IfcShellBasedSurfaceModel(expressID, type, SbsmBoundary);
  }
  ToTape() {
    let args = [];
    args.push(this.SbsmBoundary);
    ;
    return args;
  }
};
var IfcSimpleProperty = class {
  constructor(expressID, type, Name, Description) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    return new IfcSimpleProperty(expressID, type, Name, Description);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    return args;
  }
};
var IfcSimplePropertyTemplate = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, TemplateType, PrimaryMeasureType, SecondaryMeasureType, Enumerators, PrimaryUnit, SecondaryUnit, Expression, AccessState) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.TemplateType = TemplateType;
    this.PrimaryMeasureType = PrimaryMeasureType;
    this.SecondaryMeasureType = SecondaryMeasureType;
    this.Enumerators = Enumerators;
    this.PrimaryUnit = PrimaryUnit;
    this.SecondaryUnit = SecondaryUnit;
    this.Expression = Expression;
    this.AccessState = AccessState;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let TemplateType = tape[ptr++];
    let PrimaryMeasureType = tape[ptr++];
    let SecondaryMeasureType = tape[ptr++];
    let Enumerators = tape[ptr++];
    let PrimaryUnit = tape[ptr++];
    let SecondaryUnit = tape[ptr++];
    let Expression = tape[ptr++];
    let AccessState = tape[ptr++];
    return new IfcSimplePropertyTemplate(expressID, type, GlobalId, OwnerHistory, Name, Description, TemplateType, PrimaryMeasureType, SecondaryMeasureType, Enumerators, PrimaryUnit, SecondaryUnit, Expression, AccessState);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.TemplateType);
    ;
    args.push(this.PrimaryMeasureType);
    ;
    args.push(this.SecondaryMeasureType);
    ;
    args.push(this.Enumerators);
    ;
    args.push(this.PrimaryUnit);
    ;
    args.push(this.SecondaryUnit);
    ;
    args.push(this.Expression);
    ;
    args.push(this.AccessState);
    ;
    return args;
  }
};
var IfcSite = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, RefLatitude, RefLongitude, RefElevation, LandTitleNumber, SiteAddress) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
    this.RefLatitude = RefLatitude;
    this.RefLongitude = RefLongitude;
    this.RefElevation = RefElevation;
    this.LandTitleNumber = LandTitleNumber;
    this.SiteAddress = SiteAddress;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    let RefLatitude = tape[ptr++];
    let RefLongitude = tape[ptr++];
    let RefElevation = tape[ptr++];
    let LandTitleNumber = tape[ptr++];
    let SiteAddress = tape[ptr++];
    return new IfcSite(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, RefLatitude, RefLongitude, RefElevation, LandTitleNumber, SiteAddress);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    args.push(this.RefLatitude);
    ;
    args.push(this.RefLongitude);
    ;
    args.push(this.RefElevation);
    ;
    args.push(this.LandTitleNumber);
    ;
    args.push(this.SiteAddress);
    ;
    return args;
  }
};
var IfcSlab = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSlab(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSlabElementedCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSlabElementedCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSlabStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSlabStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSlabType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSlabType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSlippageConnectionCondition = class {
  constructor(expressID, type, Name, SlippageX, SlippageY, SlippageZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.SlippageX = SlippageX;
    this.SlippageY = SlippageY;
    this.SlippageZ = SlippageZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let SlippageX = tape[ptr++];
    let SlippageY = tape[ptr++];
    let SlippageZ = tape[ptr++];
    return new IfcSlippageConnectionCondition(expressID, type, Name, SlippageX, SlippageY, SlippageZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.SlippageX);
    ;
    args.push(this.SlippageY);
    ;
    args.push(this.SlippageZ);
    ;
    return args;
  }
};
var IfcSolarDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSolarDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSolarDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSolarDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSolidModel = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcSolidModel(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcSpace = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, PredefinedType, ElevationWithFlooring) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
    this.PredefinedType = PredefinedType;
    this.ElevationWithFlooring = ElevationWithFlooring;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let ElevationWithFlooring = tape[ptr++];
    return new IfcSpace(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType, PredefinedType, ElevationWithFlooring);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.ElevationWithFlooring);
    ;
    return args;
  }
};
var IfcSpaceHeater = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSpaceHeater(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSpaceHeaterType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSpaceHeaterType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSpaceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, LongName) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.LongName = LongName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let LongName = tape[ptr++];
    return new IfcSpaceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, LongName);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.LongName);
    ;
    return args;
  }
};
var IfcSpatialElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    return new IfcSpatialElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    return args;
  }
};
var IfcSpatialElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcSpatialElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcSpatialStructureElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.CompositionType = CompositionType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let CompositionType = tape[ptr++];
    return new IfcSpatialStructureElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, CompositionType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.CompositionType);
    ;
    return args;
  }
};
var IfcSpatialStructureElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    return new IfcSpatialStructureElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    return args;
  }
};
var IfcSpatialZone = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.LongName = LongName;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let LongName = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSpatialZone(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, LongName, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.LongName);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSpatialZoneType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, LongName) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.LongName = LongName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let LongName = tape[ptr++];
    return new IfcSpatialZoneType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, LongName);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.LongName);
    ;
    return args;
  }
};
var IfcSphere = class {
  constructor(expressID, type, Position, Radius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.Radius = Radius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    return new IfcSphere(expressID, type, Position, Radius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    return args;
  }
};
var IfcSphericalSurface = class {
  constructor(expressID, type, Position, Radius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.Radius = Radius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let Radius = tape[ptr++];
    return new IfcSphericalSurface(expressID, type, Position, Radius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.Radius);
    ;
    return args;
  }
};
var IfcStackTerminal = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStackTerminal(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStackTerminalType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStackTerminalType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStair = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStair(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStairFlight = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, NumberOfRisers, NumberOfTreads, RiserHeight, TreadLength, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.NumberOfRisers = NumberOfRisers;
    this.NumberOfTreads = NumberOfTreads;
    this.RiserHeight = RiserHeight;
    this.TreadLength = TreadLength;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let NumberOfRisers = tape[ptr++];
    let NumberOfTreads = tape[ptr++];
    let RiserHeight = tape[ptr++];
    let TreadLength = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStairFlight(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, NumberOfRisers, NumberOfTreads, RiserHeight, TreadLength, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.NumberOfRisers);
    ;
    args.push(this.NumberOfTreads);
    ;
    args.push(this.RiserHeight);
    ;
    args.push(this.TreadLength);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStairFlightType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStairFlightType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStairType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStairType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStructuralAction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.DestabilizingLoad = DestabilizingLoad;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let DestabilizingLoad = tape[ptr++];
    return new IfcStructuralAction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.DestabilizingLoad);
    ;
    return args;
  }
};
var IfcStructuralActivity = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    return new IfcStructuralActivity(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    return args;
  }
};
var IfcStructuralAnalysisModel = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, OrientationOf2DPlane, LoadedBy, HasResults, SharedPlacement) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.PredefinedType = PredefinedType;
    this.OrientationOf2DPlane = OrientationOf2DPlane;
    this.LoadedBy = LoadedBy;
    this.HasResults = HasResults;
    this.SharedPlacement = SharedPlacement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let OrientationOf2DPlane = tape[ptr++];
    let LoadedBy = tape[ptr++];
    let HasResults = tape[ptr++];
    let SharedPlacement = tape[ptr++];
    return new IfcStructuralAnalysisModel(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, OrientationOf2DPlane, LoadedBy, HasResults, SharedPlacement);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.OrientationOf2DPlane);
    ;
    args.push(this.LoadedBy);
    ;
    args.push(this.HasResults);
    ;
    args.push(this.SharedPlacement);
    ;
    return args;
  }
};
var IfcStructuralConnection = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedCondition = AppliedCondition;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedCondition = tape[ptr++];
    return new IfcStructuralConnection(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedCondition);
    ;
    return args;
  }
};
var IfcStructuralConnectionCondition = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcStructuralConnectionCondition(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcStructuralCurveAction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.DestabilizingLoad = DestabilizingLoad;
    this.ProjectedOrTrue = ProjectedOrTrue;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let DestabilizingLoad = tape[ptr++];
    let ProjectedOrTrue = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStructuralCurveAction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.DestabilizingLoad);
    ;
    args.push(this.ProjectedOrTrue);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStructuralCurveConnection = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition, Axis) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedCondition = AppliedCondition;
    this.Axis = Axis;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedCondition = tape[ptr++];
    let Axis = tape[ptr++];
    return new IfcStructuralCurveConnection(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition, Axis);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedCondition);
    ;
    args.push(this.Axis);
    ;
    return args;
  }
};
var IfcStructuralCurveMember = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Axis) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.PredefinedType = PredefinedType;
    this.Axis = Axis;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Axis = tape[ptr++];
    return new IfcStructuralCurveMember(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Axis);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Axis);
    ;
    return args;
  }
};
var IfcStructuralCurveMemberVarying = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Axis) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.PredefinedType = PredefinedType;
    this.Axis = Axis;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Axis = tape[ptr++];
    return new IfcStructuralCurveMemberVarying(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Axis);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Axis);
    ;
    return args;
  }
};
var IfcStructuralCurveReaction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStructuralCurveReaction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStructuralItem = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    return new IfcStructuralItem(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    return args;
  }
};
var IfcStructuralLinearAction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.DestabilizingLoad = DestabilizingLoad;
    this.ProjectedOrTrue = ProjectedOrTrue;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let DestabilizingLoad = tape[ptr++];
    let ProjectedOrTrue = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStructuralLinearAction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.DestabilizingLoad);
    ;
    args.push(this.ProjectedOrTrue);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStructuralLoad = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcStructuralLoad(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcStructuralLoadCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, ActionType, ActionSource, Coefficient, Purpose, SelfWeightCoefficients) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.PredefinedType = PredefinedType;
    this.ActionType = ActionType;
    this.ActionSource = ActionSource;
    this.Coefficient = Coefficient;
    this.Purpose = Purpose;
    this.SelfWeightCoefficients = SelfWeightCoefficients;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let ActionType = tape[ptr++];
    let ActionSource = tape[ptr++];
    let Coefficient = tape[ptr++];
    let Purpose = tape[ptr++];
    let SelfWeightCoefficients = tape[ptr++];
    return new IfcStructuralLoadCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, ActionType, ActionSource, Coefficient, Purpose, SelfWeightCoefficients);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.ActionType);
    ;
    args.push(this.ActionSource);
    ;
    args.push(this.Coefficient);
    ;
    args.push(this.Purpose);
    ;
    args.push(this.SelfWeightCoefficients);
    ;
    return args;
  }
};
var IfcStructuralLoadConfiguration = class {
  constructor(expressID, type, Name, Values, Locations) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Values = Values;
    this.Locations = Locations;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Values = tape[ptr++];
    let Locations = tape[ptr++];
    return new IfcStructuralLoadConfiguration(expressID, type, Name, Values, Locations);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Values);
    ;
    args.push(this.Locations);
    ;
    return args;
  }
};
var IfcStructuralLoadGroup = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, ActionType, ActionSource, Coefficient, Purpose) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.PredefinedType = PredefinedType;
    this.ActionType = ActionType;
    this.ActionSource = ActionSource;
    this.Coefficient = Coefficient;
    this.Purpose = Purpose;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let ActionType = tape[ptr++];
    let ActionSource = tape[ptr++];
    let Coefficient = tape[ptr++];
    let Purpose = tape[ptr++];
    return new IfcStructuralLoadGroup(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, PredefinedType, ActionType, ActionSource, Coefficient, Purpose);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.ActionType);
    ;
    args.push(this.ActionSource);
    ;
    args.push(this.Coefficient);
    ;
    args.push(this.Purpose);
    ;
    return args;
  }
};
var IfcStructuralLoadLinearForce = class {
  constructor(expressID, type, Name, LinearForceX, LinearForceY, LinearForceZ, LinearMomentX, LinearMomentY, LinearMomentZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.LinearForceX = LinearForceX;
    this.LinearForceY = LinearForceY;
    this.LinearForceZ = LinearForceZ;
    this.LinearMomentX = LinearMomentX;
    this.LinearMomentY = LinearMomentY;
    this.LinearMomentZ = LinearMomentZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let LinearForceX = tape[ptr++];
    let LinearForceY = tape[ptr++];
    let LinearForceZ = tape[ptr++];
    let LinearMomentX = tape[ptr++];
    let LinearMomentY = tape[ptr++];
    let LinearMomentZ = tape[ptr++];
    return new IfcStructuralLoadLinearForce(expressID, type, Name, LinearForceX, LinearForceY, LinearForceZ, LinearMomentX, LinearMomentY, LinearMomentZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.LinearForceX);
    ;
    args.push(this.LinearForceY);
    ;
    args.push(this.LinearForceZ);
    ;
    args.push(this.LinearMomentX);
    ;
    args.push(this.LinearMomentY);
    ;
    args.push(this.LinearMomentZ);
    ;
    return args;
  }
};
var IfcStructuralLoadOrResult = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcStructuralLoadOrResult(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcStructuralLoadPlanarForce = class {
  constructor(expressID, type, Name, PlanarForceX, PlanarForceY, PlanarForceZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.PlanarForceX = PlanarForceX;
    this.PlanarForceY = PlanarForceY;
    this.PlanarForceZ = PlanarForceZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let PlanarForceX = tape[ptr++];
    let PlanarForceY = tape[ptr++];
    let PlanarForceZ = tape[ptr++];
    return new IfcStructuralLoadPlanarForce(expressID, type, Name, PlanarForceX, PlanarForceY, PlanarForceZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.PlanarForceX);
    ;
    args.push(this.PlanarForceY);
    ;
    args.push(this.PlanarForceZ);
    ;
    return args;
  }
};
var IfcStructuralLoadSingleDisplacement = class {
  constructor(expressID, type, Name, DisplacementX, DisplacementY, DisplacementZ, RotationalDisplacementRX, RotationalDisplacementRY, RotationalDisplacementRZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DisplacementX = DisplacementX;
    this.DisplacementY = DisplacementY;
    this.DisplacementZ = DisplacementZ;
    this.RotationalDisplacementRX = RotationalDisplacementRX;
    this.RotationalDisplacementRY = RotationalDisplacementRY;
    this.RotationalDisplacementRZ = RotationalDisplacementRZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DisplacementX = tape[ptr++];
    let DisplacementY = tape[ptr++];
    let DisplacementZ = tape[ptr++];
    let RotationalDisplacementRX = tape[ptr++];
    let RotationalDisplacementRY = tape[ptr++];
    let RotationalDisplacementRZ = tape[ptr++];
    return new IfcStructuralLoadSingleDisplacement(expressID, type, Name, DisplacementX, DisplacementY, DisplacementZ, RotationalDisplacementRX, RotationalDisplacementRY, RotationalDisplacementRZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DisplacementX);
    ;
    args.push(this.DisplacementY);
    ;
    args.push(this.DisplacementZ);
    ;
    args.push(this.RotationalDisplacementRX);
    ;
    args.push(this.RotationalDisplacementRY);
    ;
    args.push(this.RotationalDisplacementRZ);
    ;
    return args;
  }
};
var IfcStructuralLoadSingleDisplacementDistortion = class {
  constructor(expressID, type, Name, DisplacementX, DisplacementY, DisplacementZ, RotationalDisplacementRX, RotationalDisplacementRY, RotationalDisplacementRZ, Distortion) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DisplacementX = DisplacementX;
    this.DisplacementY = DisplacementY;
    this.DisplacementZ = DisplacementZ;
    this.RotationalDisplacementRX = RotationalDisplacementRX;
    this.RotationalDisplacementRY = RotationalDisplacementRY;
    this.RotationalDisplacementRZ = RotationalDisplacementRZ;
    this.Distortion = Distortion;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DisplacementX = tape[ptr++];
    let DisplacementY = tape[ptr++];
    let DisplacementZ = tape[ptr++];
    let RotationalDisplacementRX = tape[ptr++];
    let RotationalDisplacementRY = tape[ptr++];
    let RotationalDisplacementRZ = tape[ptr++];
    let Distortion = tape[ptr++];
    return new IfcStructuralLoadSingleDisplacementDistortion(expressID, type, Name, DisplacementX, DisplacementY, DisplacementZ, RotationalDisplacementRX, RotationalDisplacementRY, RotationalDisplacementRZ, Distortion);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DisplacementX);
    ;
    args.push(this.DisplacementY);
    ;
    args.push(this.DisplacementZ);
    ;
    args.push(this.RotationalDisplacementRX);
    ;
    args.push(this.RotationalDisplacementRY);
    ;
    args.push(this.RotationalDisplacementRZ);
    ;
    args.push(this.Distortion);
    ;
    return args;
  }
};
var IfcStructuralLoadSingleForce = class {
  constructor(expressID, type, Name, ForceX, ForceY, ForceZ, MomentX, MomentY, MomentZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.ForceX = ForceX;
    this.ForceY = ForceY;
    this.ForceZ = ForceZ;
    this.MomentX = MomentX;
    this.MomentY = MomentY;
    this.MomentZ = MomentZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let ForceX = tape[ptr++];
    let ForceY = tape[ptr++];
    let ForceZ = tape[ptr++];
    let MomentX = tape[ptr++];
    let MomentY = tape[ptr++];
    let MomentZ = tape[ptr++];
    return new IfcStructuralLoadSingleForce(expressID, type, Name, ForceX, ForceY, ForceZ, MomentX, MomentY, MomentZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.ForceX);
    ;
    args.push(this.ForceY);
    ;
    args.push(this.ForceZ);
    ;
    args.push(this.MomentX);
    ;
    args.push(this.MomentY);
    ;
    args.push(this.MomentZ);
    ;
    return args;
  }
};
var IfcStructuralLoadSingleForceWarping = class {
  constructor(expressID, type, Name, ForceX, ForceY, ForceZ, MomentX, MomentY, MomentZ, WarpingMoment) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.ForceX = ForceX;
    this.ForceY = ForceY;
    this.ForceZ = ForceZ;
    this.MomentX = MomentX;
    this.MomentY = MomentY;
    this.MomentZ = MomentZ;
    this.WarpingMoment = WarpingMoment;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let ForceX = tape[ptr++];
    let ForceY = tape[ptr++];
    let ForceZ = tape[ptr++];
    let MomentX = tape[ptr++];
    let MomentY = tape[ptr++];
    let MomentZ = tape[ptr++];
    let WarpingMoment = tape[ptr++];
    return new IfcStructuralLoadSingleForceWarping(expressID, type, Name, ForceX, ForceY, ForceZ, MomentX, MomentY, MomentZ, WarpingMoment);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.ForceX);
    ;
    args.push(this.ForceY);
    ;
    args.push(this.ForceZ);
    ;
    args.push(this.MomentX);
    ;
    args.push(this.MomentY);
    ;
    args.push(this.MomentZ);
    ;
    args.push(this.WarpingMoment);
    ;
    return args;
  }
};
var IfcStructuralLoadStatic = class {
  constructor(expressID, type, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    return new IfcStructuralLoadStatic(expressID, type, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcStructuralLoadTemperature = class {
  constructor(expressID, type, Name, DeltaTConstant, DeltaTY, DeltaTZ) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DeltaTConstant = DeltaTConstant;
    this.DeltaTY = DeltaTY;
    this.DeltaTZ = DeltaTZ;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DeltaTConstant = tape[ptr++];
    let DeltaTY = tape[ptr++];
    let DeltaTZ = tape[ptr++];
    return new IfcStructuralLoadTemperature(expressID, type, Name, DeltaTConstant, DeltaTY, DeltaTZ);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DeltaTConstant);
    ;
    args.push(this.DeltaTY);
    ;
    args.push(this.DeltaTZ);
    ;
    return args;
  }
};
var IfcStructuralMember = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    return new IfcStructuralMember(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    return args;
  }
};
var IfcStructuralPlanarAction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.DestabilizingLoad = DestabilizingLoad;
    this.ProjectedOrTrue = ProjectedOrTrue;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let DestabilizingLoad = tape[ptr++];
    let ProjectedOrTrue = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStructuralPlanarAction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.DestabilizingLoad);
    ;
    args.push(this.ProjectedOrTrue);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStructuralPointAction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.DestabilizingLoad = DestabilizingLoad;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let DestabilizingLoad = tape[ptr++];
    return new IfcStructuralPointAction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.DestabilizingLoad);
    ;
    return args;
  }
};
var IfcStructuralPointConnection = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition, ConditionCoordinateSystem) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedCondition = AppliedCondition;
    this.ConditionCoordinateSystem = ConditionCoordinateSystem;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedCondition = tape[ptr++];
    let ConditionCoordinateSystem = tape[ptr++];
    return new IfcStructuralPointConnection(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition, ConditionCoordinateSystem);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedCondition);
    ;
    args.push(this.ConditionCoordinateSystem);
    ;
    return args;
  }
};
var IfcStructuralPointReaction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    return new IfcStructuralPointReaction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    return args;
  }
};
var IfcStructuralReaction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    return new IfcStructuralReaction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    return args;
  }
};
var IfcStructuralResultGroup = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, TheoryType, ResultForLoadGroup, IsLinear) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.TheoryType = TheoryType;
    this.ResultForLoadGroup = ResultForLoadGroup;
    this.IsLinear = IsLinear;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let TheoryType = tape[ptr++];
    let ResultForLoadGroup = tape[ptr++];
    let IsLinear = tape[ptr++];
    return new IfcStructuralResultGroup(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, TheoryType, ResultForLoadGroup, IsLinear);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.TheoryType);
    ;
    args.push(this.ResultForLoadGroup);
    ;
    args.push(this.IsLinear);
    ;
    return args;
  }
};
var IfcStructuralSurfaceAction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.DestabilizingLoad = DestabilizingLoad;
    this.ProjectedOrTrue = ProjectedOrTrue;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let DestabilizingLoad = tape[ptr++];
    let ProjectedOrTrue = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStructuralSurfaceAction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, DestabilizingLoad, ProjectedOrTrue, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.DestabilizingLoad);
    ;
    args.push(this.ProjectedOrTrue);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStructuralSurfaceConnection = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedCondition = AppliedCondition;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedCondition = tape[ptr++];
    return new IfcStructuralSurfaceConnection(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedCondition);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedCondition);
    ;
    return args;
  }
};
var IfcStructuralSurfaceMember = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Thickness) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.PredefinedType = PredefinedType;
    this.Thickness = Thickness;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Thickness = tape[ptr++];
    return new IfcStructuralSurfaceMember(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Thickness);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Thickness);
    ;
    return args;
  }
};
var IfcStructuralSurfaceMemberVarying = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Thickness) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.PredefinedType = PredefinedType;
    this.Thickness = Thickness;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let Thickness = tape[ptr++];
    return new IfcStructuralSurfaceMemberVarying(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, PredefinedType, Thickness);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.Thickness);
    ;
    return args;
  }
};
var IfcStructuralSurfaceReaction = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.AppliedLoad = AppliedLoad;
    this.GlobalOrLocal = GlobalOrLocal;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let AppliedLoad = tape[ptr++];
    let GlobalOrLocal = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcStructuralSurfaceReaction(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, AppliedLoad, GlobalOrLocal, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.AppliedLoad);
    ;
    args.push(this.GlobalOrLocal);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcStyleModel = class {
  constructor(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items) {
    this.expressID = expressID;
    this.type = type;
    this.ContextOfItems = ContextOfItems;
    this.RepresentationIdentifier = RepresentationIdentifier;
    this.RepresentationType = RepresentationType;
    this.Items = Items;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextOfItems = tape[ptr++];
    let RepresentationIdentifier = tape[ptr++];
    let RepresentationType = tape[ptr++];
    let Items = tape[ptr++];
    return new IfcStyleModel(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextOfItems);
    ;
    args.push(this.RepresentationIdentifier);
    ;
    args.push(this.RepresentationType);
    ;
    args.push(this.Items);
    ;
    return args;
  }
};
var IfcStyledItem = class {
  constructor(expressID, type, Item, Styles, Name) {
    this.expressID = expressID;
    this.type = type;
    this.Item = Item;
    this.Styles = Styles;
    this.Name = Name;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Item = tape[ptr++];
    let Styles = tape[ptr++];
    let Name = tape[ptr++];
    return new IfcStyledItem(expressID, type, Item, Styles, Name);
  }
  ToTape() {
    let args = [];
    args.push(this.Item);
    ;
    args.push(this.Styles);
    ;
    args.push(this.Name);
    ;
    return args;
  }
};
var IfcStyledRepresentation = class {
  constructor(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items) {
    this.expressID = expressID;
    this.type = type;
    this.ContextOfItems = ContextOfItems;
    this.RepresentationIdentifier = RepresentationIdentifier;
    this.RepresentationType = RepresentationType;
    this.Items = Items;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextOfItems = tape[ptr++];
    let RepresentationIdentifier = tape[ptr++];
    let RepresentationType = tape[ptr++];
    let Items = tape[ptr++];
    return new IfcStyledRepresentation(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextOfItems);
    ;
    args.push(this.RepresentationIdentifier);
    ;
    args.push(this.RepresentationType);
    ;
    args.push(this.Items);
    ;
    return args;
  }
};
var IfcSubContractResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Usage = Usage;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Usage = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSubContractResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Usage, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Usage);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSubContractResourceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
    this.BaseCosts = BaseCosts;
    this.BaseQuantity = BaseQuantity;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    let BaseCosts = tape[ptr++];
    let BaseQuantity = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSubContractResourceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType, BaseCosts, BaseQuantity, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    args.push(this.BaseCosts);
    ;
    args.push(this.BaseQuantity);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSubedge = class {
  constructor(expressID, type, EdgeStart, EdgeEnd, ParentEdge) {
    this.expressID = expressID;
    this.type = type;
    this.EdgeStart = EdgeStart;
    this.EdgeEnd = EdgeEnd;
    this.ParentEdge = ParentEdge;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let EdgeStart = tape[ptr++];
    let EdgeEnd = tape[ptr++];
    let ParentEdge = tape[ptr++];
    return new IfcSubedge(expressID, type, EdgeStart, EdgeEnd, ParentEdge);
  }
  ToTape() {
    let args = [];
    args.push(this.EdgeStart);
    ;
    args.push(this.EdgeEnd);
    ;
    args.push(this.ParentEdge);
    ;
    return args;
  }
};
var IfcSurface = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcSurface(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcSurfaceCurve = class {
  constructor(expressID, type, Curve3D, AssociatedGeometry, MasterRepresentation) {
    this.expressID = expressID;
    this.type = type;
    this.Curve3D = Curve3D;
    this.AssociatedGeometry = AssociatedGeometry;
    this.MasterRepresentation = MasterRepresentation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Curve3D = tape[ptr++];
    let AssociatedGeometry = tape[ptr++];
    let MasterRepresentation = tape[ptr++];
    return new IfcSurfaceCurve(expressID, type, Curve3D, AssociatedGeometry, MasterRepresentation);
  }
  ToTape() {
    let args = [];
    args.push(this.Curve3D);
    ;
    args.push(this.AssociatedGeometry);
    ;
    args.push(this.MasterRepresentation);
    ;
    return args;
  }
};
var IfcSurfaceCurveSweptAreaSolid = class {
  constructor(expressID, type, SweptArea, Position, Directrix, StartParam, EndParam, ReferenceSurface) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
    this.Directrix = Directrix;
    this.StartParam = StartParam;
    this.EndParam = EndParam;
    this.ReferenceSurface = ReferenceSurface;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    let Directrix = tape[ptr++];
    let StartParam = tape[ptr++];
    let EndParam = tape[ptr++];
    let ReferenceSurface = tape[ptr++];
    return new IfcSurfaceCurveSweptAreaSolid(expressID, type, SweptArea, Position, Directrix, StartParam, EndParam, ReferenceSurface);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    args.push(this.Directrix);
    ;
    args.push(this.StartParam);
    ;
    args.push(this.EndParam);
    ;
    args.push(this.ReferenceSurface);
    ;
    return args;
  }
};
var IfcSurfaceFeature = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSurfaceFeature(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSurfaceOfLinearExtrusion = class {
  constructor(expressID, type, SweptCurve, Position, ExtrudedDirection, Depth) {
    this.expressID = expressID;
    this.type = type;
    this.SweptCurve = SweptCurve;
    this.Position = Position;
    this.ExtrudedDirection = ExtrudedDirection;
    this.Depth = Depth;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptCurve = tape[ptr++];
    let Position = tape[ptr++];
    let ExtrudedDirection = tape[ptr++];
    let Depth = tape[ptr++];
    return new IfcSurfaceOfLinearExtrusion(expressID, type, SweptCurve, Position, ExtrudedDirection, Depth);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptCurve);
    ;
    args.push(this.Position);
    ;
    args.push(this.ExtrudedDirection);
    ;
    args.push(this.Depth);
    ;
    return args;
  }
};
var IfcSurfaceOfRevolution = class {
  constructor(expressID, type, SweptCurve, Position, AxisPosition) {
    this.expressID = expressID;
    this.type = type;
    this.SweptCurve = SweptCurve;
    this.Position = Position;
    this.AxisPosition = AxisPosition;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptCurve = tape[ptr++];
    let Position = tape[ptr++];
    let AxisPosition = tape[ptr++];
    return new IfcSurfaceOfRevolution(expressID, type, SweptCurve, Position, AxisPosition);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptCurve);
    ;
    args.push(this.Position);
    ;
    args.push(this.AxisPosition);
    ;
    return args;
  }
};
var IfcSurfaceReinforcementArea = class {
  constructor(expressID, type, Name, SurfaceReinforcement1, SurfaceReinforcement2, ShearReinforcement) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.SurfaceReinforcement1 = SurfaceReinforcement1;
    this.SurfaceReinforcement2 = SurfaceReinforcement2;
    this.ShearReinforcement = ShearReinforcement;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let SurfaceReinforcement1 = tape[ptr++];
    let SurfaceReinforcement2 = tape[ptr++];
    let ShearReinforcement = tape[ptr++];
    return new IfcSurfaceReinforcementArea(expressID, type, Name, SurfaceReinforcement1, SurfaceReinforcement2, ShearReinforcement);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.SurfaceReinforcement1);
    ;
    args.push(this.SurfaceReinforcement2);
    ;
    args.push(this.ShearReinforcement);
    ;
    return args;
  }
};
var IfcSurfaceStyle = class {
  constructor(expressID, type, Name, Side, Styles) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Side = Side;
    this.Styles = Styles;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Side = tape[ptr++];
    let Styles = tape[ptr++];
    return new IfcSurfaceStyle(expressID, type, Name, Side, Styles);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Side);
    ;
    args.push(this.Styles);
    ;
    return args;
  }
};
var IfcSurfaceStyleLighting = class {
  constructor(expressID, type, DiffuseTransmissionColour, DiffuseReflectionColour, TransmissionColour, ReflectanceColour) {
    this.expressID = expressID;
    this.type = type;
    this.DiffuseTransmissionColour = DiffuseTransmissionColour;
    this.DiffuseReflectionColour = DiffuseReflectionColour;
    this.TransmissionColour = TransmissionColour;
    this.ReflectanceColour = ReflectanceColour;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let DiffuseTransmissionColour = tape[ptr++];
    let DiffuseReflectionColour = tape[ptr++];
    let TransmissionColour = tape[ptr++];
    let ReflectanceColour = tape[ptr++];
    return new IfcSurfaceStyleLighting(expressID, type, DiffuseTransmissionColour, DiffuseReflectionColour, TransmissionColour, ReflectanceColour);
  }
  ToTape() {
    let args = [];
    args.push(this.DiffuseTransmissionColour);
    ;
    args.push(this.DiffuseReflectionColour);
    ;
    args.push(this.TransmissionColour);
    ;
    args.push(this.ReflectanceColour);
    ;
    return args;
  }
};
var IfcSurfaceStyleRefraction = class {
  constructor(expressID, type, RefractionIndex, DispersionFactor) {
    this.expressID = expressID;
    this.type = type;
    this.RefractionIndex = RefractionIndex;
    this.DispersionFactor = DispersionFactor;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RefractionIndex = tape[ptr++];
    let DispersionFactor = tape[ptr++];
    return new IfcSurfaceStyleRefraction(expressID, type, RefractionIndex, DispersionFactor);
  }
  ToTape() {
    let args = [];
    args.push(this.RefractionIndex);
    ;
    args.push(this.DispersionFactor);
    ;
    return args;
  }
};
var IfcSurfaceStyleRendering = class {
  constructor(expressID, type, SurfaceColour, Transparency, DiffuseColour, TransmissionColour, DiffuseTransmissionColour, ReflectionColour, SpecularColour, SpecularHighlight, ReflectanceMethod) {
    this.expressID = expressID;
    this.type = type;
    this.SurfaceColour = SurfaceColour;
    this.Transparency = Transparency;
    this.DiffuseColour = DiffuseColour;
    this.TransmissionColour = TransmissionColour;
    this.DiffuseTransmissionColour = DiffuseTransmissionColour;
    this.ReflectionColour = ReflectionColour;
    this.SpecularColour = SpecularColour;
    this.SpecularHighlight = SpecularHighlight;
    this.ReflectanceMethod = ReflectanceMethod;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SurfaceColour = tape[ptr++];
    let Transparency = tape[ptr++];
    let DiffuseColour = tape[ptr++];
    let TransmissionColour = tape[ptr++];
    let DiffuseTransmissionColour = tape[ptr++];
    let ReflectionColour = tape[ptr++];
    let SpecularColour = tape[ptr++];
    let SpecularHighlight = tape[ptr++];
    let ReflectanceMethod = tape[ptr++];
    return new IfcSurfaceStyleRendering(expressID, type, SurfaceColour, Transparency, DiffuseColour, TransmissionColour, DiffuseTransmissionColour, ReflectionColour, SpecularColour, SpecularHighlight, ReflectanceMethod);
  }
  ToTape() {
    let args = [];
    args.push(this.SurfaceColour);
    ;
    args.push(this.Transparency);
    ;
    args.push(this.DiffuseColour);
    ;
    args.push(this.TransmissionColour);
    ;
    args.push(this.DiffuseTransmissionColour);
    ;
    args.push(this.ReflectionColour);
    ;
    args.push(this.SpecularColour);
    ;
    args.push(this.SpecularHighlight);
    ;
    args.push(this.ReflectanceMethod);
    ;
    return args;
  }
};
var IfcSurfaceStyleShading = class {
  constructor(expressID, type, SurfaceColour, Transparency) {
    this.expressID = expressID;
    this.type = type;
    this.SurfaceColour = SurfaceColour;
    this.Transparency = Transparency;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SurfaceColour = tape[ptr++];
    let Transparency = tape[ptr++];
    return new IfcSurfaceStyleShading(expressID, type, SurfaceColour, Transparency);
  }
  ToTape() {
    let args = [];
    args.push(this.SurfaceColour);
    ;
    args.push(this.Transparency);
    ;
    return args;
  }
};
var IfcSurfaceStyleWithTextures = class {
  constructor(expressID, type, Textures) {
    this.expressID = expressID;
    this.type = type;
    this.Textures = Textures;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Textures = tape[ptr++];
    return new IfcSurfaceStyleWithTextures(expressID, type, Textures);
  }
  ToTape() {
    let args = [];
    args.push(this.Textures);
    ;
    return args;
  }
};
var IfcSurfaceTexture = class {
  constructor(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter) {
    this.expressID = expressID;
    this.type = type;
    this.RepeatS = RepeatS;
    this.RepeatT = RepeatT;
    this.Mode = Mode;
    this.TextureTransform = TextureTransform;
    this.Parameter = Parameter;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RepeatS = tape[ptr++];
    let RepeatT = tape[ptr++];
    let Mode = tape[ptr++];
    let TextureTransform = tape[ptr++];
    let Parameter = tape[ptr++];
    return new IfcSurfaceTexture(expressID, type, RepeatS, RepeatT, Mode, TextureTransform, Parameter);
  }
  ToTape() {
    let args = [];
    args.push(this.RepeatS);
    ;
    args.push(this.RepeatT);
    ;
    args.push(this.Mode);
    ;
    args.push(this.TextureTransform);
    ;
    args.push(this.Parameter);
    ;
    return args;
  }
};
var IfcSweptAreaSolid = class {
  constructor(expressID, type, SweptArea, Position) {
    this.expressID = expressID;
    this.type = type;
    this.SweptArea = SweptArea;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptArea = tape[ptr++];
    let Position = tape[ptr++];
    return new IfcSweptAreaSolid(expressID, type, SweptArea, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptArea);
    ;
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcSweptDiskSolid = class {
  constructor(expressID, type, Directrix, Radius, InnerRadius, StartParam, EndParam) {
    this.expressID = expressID;
    this.type = type;
    this.Directrix = Directrix;
    this.Radius = Radius;
    this.InnerRadius = InnerRadius;
    this.StartParam = StartParam;
    this.EndParam = EndParam;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Directrix = tape[ptr++];
    let Radius = tape[ptr++];
    let InnerRadius = tape[ptr++];
    let StartParam = tape[ptr++];
    let EndParam = tape[ptr++];
    return new IfcSweptDiskSolid(expressID, type, Directrix, Radius, InnerRadius, StartParam, EndParam);
  }
  ToTape() {
    let args = [];
    args.push(this.Directrix);
    ;
    args.push(this.Radius);
    ;
    args.push(this.InnerRadius);
    ;
    args.push(this.StartParam);
    ;
    args.push(this.EndParam);
    ;
    return args;
  }
};
var IfcSweptDiskSolidPolygonal = class {
  constructor(expressID, type, Directrix, Radius, InnerRadius, StartParam, EndParam, FilletRadius) {
    this.expressID = expressID;
    this.type = type;
    this.Directrix = Directrix;
    this.Radius = Radius;
    this.InnerRadius = InnerRadius;
    this.StartParam = StartParam;
    this.EndParam = EndParam;
    this.FilletRadius = FilletRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Directrix = tape[ptr++];
    let Radius = tape[ptr++];
    let InnerRadius = tape[ptr++];
    let StartParam = tape[ptr++];
    let EndParam = tape[ptr++];
    let FilletRadius = tape[ptr++];
    return new IfcSweptDiskSolidPolygonal(expressID, type, Directrix, Radius, InnerRadius, StartParam, EndParam, FilletRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.Directrix);
    ;
    args.push(this.Radius);
    ;
    args.push(this.InnerRadius);
    ;
    args.push(this.StartParam);
    ;
    args.push(this.EndParam);
    ;
    args.push(this.FilletRadius);
    ;
    return args;
  }
};
var IfcSweptSurface = class {
  constructor(expressID, type, SweptCurve, Position) {
    this.expressID = expressID;
    this.type = type;
    this.SweptCurve = SweptCurve;
    this.Position = Position;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let SweptCurve = tape[ptr++];
    let Position = tape[ptr++];
    return new IfcSweptSurface(expressID, type, SweptCurve, Position);
  }
  ToTape() {
    let args = [];
    args.push(this.SweptCurve);
    ;
    args.push(this.Position);
    ;
    return args;
  }
};
var IfcSwitchingDevice = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSwitchingDevice(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSwitchingDeviceType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSwitchingDeviceType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSystem = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    return new IfcSystem(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    return args;
  }
};
var IfcSystemFurnitureElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSystemFurnitureElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcSystemFurnitureElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcSystemFurnitureElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Depth, FlangeWidth, WebThickness, FlangeThickness, FilletRadius, FlangeEdgeRadius, WebEdgeRadius, WebSlope, FlangeSlope) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Depth = Depth;
    this.FlangeWidth = FlangeWidth;
    this.WebThickness = WebThickness;
    this.FlangeThickness = FlangeThickness;
    this.FilletRadius = FilletRadius;
    this.FlangeEdgeRadius = FlangeEdgeRadius;
    this.WebEdgeRadius = WebEdgeRadius;
    this.WebSlope = WebSlope;
    this.FlangeSlope = FlangeSlope;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Depth = tape[ptr++];
    let FlangeWidth = tape[ptr++];
    let WebThickness = tape[ptr++];
    let FlangeThickness = tape[ptr++];
    let FilletRadius = tape[ptr++];
    let FlangeEdgeRadius = tape[ptr++];
    let WebEdgeRadius = tape[ptr++];
    let WebSlope = tape[ptr++];
    let FlangeSlope = tape[ptr++];
    return new IfcTShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, Depth, FlangeWidth, WebThickness, FlangeThickness, FilletRadius, FlangeEdgeRadius, WebEdgeRadius, WebSlope, FlangeSlope);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Depth);
    ;
    args.push(this.FlangeWidth);
    ;
    args.push(this.WebThickness);
    ;
    args.push(this.FlangeThickness);
    ;
    args.push(this.FilletRadius);
    ;
    args.push(this.FlangeEdgeRadius);
    ;
    args.push(this.WebEdgeRadius);
    ;
    args.push(this.WebSlope);
    ;
    args.push(this.FlangeSlope);
    ;
    return args;
  }
};
var IfcTable = class {
  constructor(expressID, type, Name, Rows, Columns) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Rows = Rows;
    this.Columns = Columns;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Rows = tape[ptr++];
    let Columns = tape[ptr++];
    return new IfcTable(expressID, type, Name, Rows, Columns);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Rows);
    ;
    args.push(this.Columns);
    ;
    return args;
  }
};
var IfcTableColumn = class {
  constructor(expressID, type, Identifier, Name, Description, Unit, ReferencePath) {
    this.expressID = expressID;
    this.type = type;
    this.Identifier = Identifier;
    this.Name = Name;
    this.Description = Description;
    this.Unit = Unit;
    this.ReferencePath = ReferencePath;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Identifier = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let Unit = tape[ptr++];
    let ReferencePath = tape[ptr++];
    return new IfcTableColumn(expressID, type, Identifier, Name, Description, Unit, ReferencePath);
  }
  ToTape() {
    let args = [];
    args.push(this.Identifier);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.Unit);
    ;
    args.push(this.ReferencePath);
    ;
    return args;
  }
};
var IfcTableRow = class {
  constructor(expressID, type, RowCells, IsHeading) {
    this.expressID = expressID;
    this.type = type;
    this.RowCells = RowCells;
    this.IsHeading = IsHeading;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let RowCells = tape[ptr++];
    let IsHeading = tape[ptr++];
    return new IfcTableRow(expressID, type, RowCells, IsHeading);
  }
  ToTape() {
    let args = [];
    args.push(this.RowCells);
    ;
    args.push(this.IsHeading);
    ;
    return args;
  }
};
var IfcTank = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTank(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTankType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTankType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTask = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Status, WorkMethod, IsMilestone, Priority, TaskTime, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.Status = Status;
    this.WorkMethod = WorkMethod;
    this.IsMilestone = IsMilestone;
    this.Priority = Priority;
    this.TaskTime = TaskTime;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let Status = tape[ptr++];
    let WorkMethod = tape[ptr++];
    let IsMilestone = tape[ptr++];
    let Priority = tape[ptr++];
    let TaskTime = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTask(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, LongDescription, Status, WorkMethod, IsMilestone, Priority, TaskTime, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.Status);
    ;
    args.push(this.WorkMethod);
    ;
    args.push(this.IsMilestone);
    ;
    args.push(this.Priority);
    ;
    args.push(this.TaskTime);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTaskTime = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, DurationType, ScheduleDuration, ScheduleStart, ScheduleFinish, EarlyStart, EarlyFinish, LateStart, LateFinish, FreeFloat, TotalFloat, IsCritical, StatusTime, ActualDuration, ActualStart, ActualFinish, RemainingTime, Completion) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.DurationType = DurationType;
    this.ScheduleDuration = ScheduleDuration;
    this.ScheduleStart = ScheduleStart;
    this.ScheduleFinish = ScheduleFinish;
    this.EarlyStart = EarlyStart;
    this.EarlyFinish = EarlyFinish;
    this.LateStart = LateStart;
    this.LateFinish = LateFinish;
    this.FreeFloat = FreeFloat;
    this.TotalFloat = TotalFloat;
    this.IsCritical = IsCritical;
    this.StatusTime = StatusTime;
    this.ActualDuration = ActualDuration;
    this.ActualStart = ActualStart;
    this.ActualFinish = ActualFinish;
    this.RemainingTime = RemainingTime;
    this.Completion = Completion;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let DurationType = tape[ptr++];
    let ScheduleDuration = tape[ptr++];
    let ScheduleStart = tape[ptr++];
    let ScheduleFinish = tape[ptr++];
    let EarlyStart = tape[ptr++];
    let EarlyFinish = tape[ptr++];
    let LateStart = tape[ptr++];
    let LateFinish = tape[ptr++];
    let FreeFloat = tape[ptr++];
    let TotalFloat = tape[ptr++];
    let IsCritical = tape[ptr++];
    let StatusTime = tape[ptr++];
    let ActualDuration = tape[ptr++];
    let ActualStart = tape[ptr++];
    let ActualFinish = tape[ptr++];
    let RemainingTime = tape[ptr++];
    let Completion = tape[ptr++];
    return new IfcTaskTime(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, DurationType, ScheduleDuration, ScheduleStart, ScheduleFinish, EarlyStart, EarlyFinish, LateStart, LateFinish, FreeFloat, TotalFloat, IsCritical, StatusTime, ActualDuration, ActualStart, ActualFinish, RemainingTime, Completion);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.DurationType);
    ;
    args.push(this.ScheduleDuration);
    ;
    args.push(this.ScheduleStart);
    ;
    args.push(this.ScheduleFinish);
    ;
    args.push(this.EarlyStart);
    ;
    args.push(this.EarlyFinish);
    ;
    args.push(this.LateStart);
    ;
    args.push(this.LateFinish);
    ;
    args.push(this.FreeFloat);
    ;
    args.push(this.TotalFloat);
    ;
    args.push(this.IsCritical);
    ;
    args.push(this.StatusTime);
    ;
    args.push(this.ActualDuration);
    ;
    args.push(this.ActualStart);
    ;
    args.push(this.ActualFinish);
    ;
    args.push(this.RemainingTime);
    ;
    args.push(this.Completion);
    ;
    return args;
  }
};
var IfcTaskTimeRecurring = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, DurationType, ScheduleDuration, ScheduleStart, ScheduleFinish, EarlyStart, EarlyFinish, LateStart, LateFinish, FreeFloat, TotalFloat, IsCritical, StatusTime, ActualDuration, ActualStart, ActualFinish, RemainingTime, Completion, Recurrence) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.DurationType = DurationType;
    this.ScheduleDuration = ScheduleDuration;
    this.ScheduleStart = ScheduleStart;
    this.ScheduleFinish = ScheduleFinish;
    this.EarlyStart = EarlyStart;
    this.EarlyFinish = EarlyFinish;
    this.LateStart = LateStart;
    this.LateFinish = LateFinish;
    this.FreeFloat = FreeFloat;
    this.TotalFloat = TotalFloat;
    this.IsCritical = IsCritical;
    this.StatusTime = StatusTime;
    this.ActualDuration = ActualDuration;
    this.ActualStart = ActualStart;
    this.ActualFinish = ActualFinish;
    this.RemainingTime = RemainingTime;
    this.Completion = Completion;
    this.Recurrence = Recurrence;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let DurationType = tape[ptr++];
    let ScheduleDuration = tape[ptr++];
    let ScheduleStart = tape[ptr++];
    let ScheduleFinish = tape[ptr++];
    let EarlyStart = tape[ptr++];
    let EarlyFinish = tape[ptr++];
    let LateStart = tape[ptr++];
    let LateFinish = tape[ptr++];
    let FreeFloat = tape[ptr++];
    let TotalFloat = tape[ptr++];
    let IsCritical = tape[ptr++];
    let StatusTime = tape[ptr++];
    let ActualDuration = tape[ptr++];
    let ActualStart = tape[ptr++];
    let ActualFinish = tape[ptr++];
    let RemainingTime = tape[ptr++];
    let Completion = tape[ptr++];
    let Recurrence = tape[ptr++];
    return new IfcTaskTimeRecurring(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, DurationType, ScheduleDuration, ScheduleStart, ScheduleFinish, EarlyStart, EarlyFinish, LateStart, LateFinish, FreeFloat, TotalFloat, IsCritical, StatusTime, ActualDuration, ActualStart, ActualFinish, RemainingTime, Completion, Recurrence);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.DurationType);
    ;
    args.push(this.ScheduleDuration);
    ;
    args.push(this.ScheduleStart);
    ;
    args.push(this.ScheduleFinish);
    ;
    args.push(this.EarlyStart);
    ;
    args.push(this.EarlyFinish);
    ;
    args.push(this.LateStart);
    ;
    args.push(this.LateFinish);
    ;
    args.push(this.FreeFloat);
    ;
    args.push(this.TotalFloat);
    ;
    args.push(this.IsCritical);
    ;
    args.push(this.StatusTime);
    ;
    args.push(this.ActualDuration);
    ;
    args.push(this.ActualStart);
    ;
    args.push(this.ActualFinish);
    ;
    args.push(this.RemainingTime);
    ;
    args.push(this.Completion);
    ;
    args.push(this.Recurrence);
    ;
    return args;
  }
};
var IfcTaskType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType, PredefinedType, WorkMethod) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ProcessType = ProcessType;
    this.PredefinedType = PredefinedType;
    this.WorkMethod = WorkMethod;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ProcessType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let WorkMethod = tape[ptr++];
    return new IfcTaskType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType, PredefinedType, WorkMethod);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ProcessType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.WorkMethod);
    ;
    return args;
  }
};
var IfcTelecomAddress = class {
  constructor(expressID, type, Purpose, Description, UserDefinedPurpose, TelephoneNumbers, FacsimileNumbers, PagerNumber, ElectronicMailAddresses, WWWHomePageURL, MessagingIDs) {
    this.expressID = expressID;
    this.type = type;
    this.Purpose = Purpose;
    this.Description = Description;
    this.UserDefinedPurpose = UserDefinedPurpose;
    this.TelephoneNumbers = TelephoneNumbers;
    this.FacsimileNumbers = FacsimileNumbers;
    this.PagerNumber = PagerNumber;
    this.ElectronicMailAddresses = ElectronicMailAddresses;
    this.WWWHomePageURL = WWWHomePageURL;
    this.MessagingIDs = MessagingIDs;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Purpose = tape[ptr++];
    let Description = tape[ptr++];
    let UserDefinedPurpose = tape[ptr++];
    let TelephoneNumbers = tape[ptr++];
    let FacsimileNumbers = tape[ptr++];
    let PagerNumber = tape[ptr++];
    let ElectronicMailAddresses = tape[ptr++];
    let WWWHomePageURL = tape[ptr++];
    let MessagingIDs = tape[ptr++];
    return new IfcTelecomAddress(expressID, type, Purpose, Description, UserDefinedPurpose, TelephoneNumbers, FacsimileNumbers, PagerNumber, ElectronicMailAddresses, WWWHomePageURL, MessagingIDs);
  }
  ToTape() {
    let args = [];
    args.push(this.Purpose);
    ;
    args.push(this.Description);
    ;
    args.push(this.UserDefinedPurpose);
    ;
    args.push(this.TelephoneNumbers);
    ;
    args.push(this.FacsimileNumbers);
    ;
    args.push(this.PagerNumber);
    ;
    args.push(this.ElectronicMailAddresses);
    ;
    args.push(this.WWWHomePageURL);
    ;
    args.push(this.MessagingIDs);
    ;
    return args;
  }
};
var IfcTendon = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, PredefinedType, NominalDiameter, CrossSectionArea, TensionForce, PreStress, FrictionCoefficient, AnchorageSlip, MinCurvatureRadius) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.SteelGrade = SteelGrade;
    this.PredefinedType = PredefinedType;
    this.NominalDiameter = NominalDiameter;
    this.CrossSectionArea = CrossSectionArea;
    this.TensionForce = TensionForce;
    this.PreStress = PreStress;
    this.FrictionCoefficient = FrictionCoefficient;
    this.AnchorageSlip = AnchorageSlip;
    this.MinCurvatureRadius = MinCurvatureRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let SteelGrade = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let NominalDiameter = tape[ptr++];
    let CrossSectionArea = tape[ptr++];
    let TensionForce = tape[ptr++];
    let PreStress = tape[ptr++];
    let FrictionCoefficient = tape[ptr++];
    let AnchorageSlip = tape[ptr++];
    let MinCurvatureRadius = tape[ptr++];
    return new IfcTendon(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, PredefinedType, NominalDiameter, CrossSectionArea, TensionForce, PreStress, FrictionCoefficient, AnchorageSlip, MinCurvatureRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.SteelGrade);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.NominalDiameter);
    ;
    args.push(this.CrossSectionArea);
    ;
    args.push(this.TensionForce);
    ;
    args.push(this.PreStress);
    ;
    args.push(this.FrictionCoefficient);
    ;
    args.push(this.AnchorageSlip);
    ;
    args.push(this.MinCurvatureRadius);
    ;
    return args;
  }
};
var IfcTendonAnchor = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.SteelGrade = SteelGrade;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let SteelGrade = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTendonAnchor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.SteelGrade);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTendonAnchorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTendonAnchorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTendonConduit = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.SteelGrade = SteelGrade;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let SteelGrade = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTendonConduit(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, SteelGrade, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.SteelGrade);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTendonConduitType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTendonConduitType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTendonType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, NominalDiameter, CrossSectionArea, SheathDiameter) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.NominalDiameter = NominalDiameter;
    this.CrossSectionArea = CrossSectionArea;
    this.SheathDiameter = SheathDiameter;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let NominalDiameter = tape[ptr++];
    let CrossSectionArea = tape[ptr++];
    let SheathDiameter = tape[ptr++];
    return new IfcTendonType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, NominalDiameter, CrossSectionArea, SheathDiameter);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.NominalDiameter);
    ;
    args.push(this.CrossSectionArea);
    ;
    args.push(this.SheathDiameter);
    ;
    return args;
  }
};
var IfcTessellatedFaceSet = class {
  constructor(expressID, type, Coordinates) {
    this.expressID = expressID;
    this.type = type;
    this.Coordinates = Coordinates;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Coordinates = tape[ptr++];
    return new IfcTessellatedFaceSet(expressID, type, Coordinates);
  }
  ToTape() {
    let args = [];
    args.push(this.Coordinates);
    ;
    return args;
  }
};
var IfcTessellatedItem = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcTessellatedItem(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcTextLiteral = class {
  constructor(expressID, type, Literal, Placement, Path) {
    this.expressID = expressID;
    this.type = type;
    this.Literal = Literal;
    this.Placement = Placement;
    this.Path = Path;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Literal = tape[ptr++];
    let Placement = tape[ptr++];
    let Path = tape[ptr++];
    return new IfcTextLiteral(expressID, type, Literal, Placement, Path);
  }
  ToTape() {
    let args = [];
    args.push(this.Literal);
    ;
    args.push(this.Placement);
    ;
    args.push(this.Path);
    ;
    return args;
  }
};
var IfcTextLiteralWithExtent = class {
  constructor(expressID, type, Literal, Placement, Path, Extent, BoxAlignment) {
    this.expressID = expressID;
    this.type = type;
    this.Literal = Literal;
    this.Placement = Placement;
    this.Path = Path;
    this.Extent = Extent;
    this.BoxAlignment = BoxAlignment;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Literal = tape[ptr++];
    let Placement = tape[ptr++];
    let Path = tape[ptr++];
    let Extent = tape[ptr++];
    let BoxAlignment = tape[ptr++];
    return new IfcTextLiteralWithExtent(expressID, type, Literal, Placement, Path, Extent, BoxAlignment);
  }
  ToTape() {
    let args = [];
    args.push(this.Literal);
    ;
    args.push(this.Placement);
    ;
    args.push(this.Path);
    ;
    args.push(this.Extent);
    ;
    args.push(this.BoxAlignment);
    ;
    return args;
  }
};
var IfcTextStyle = class {
  constructor(expressID, type, Name, TextCharacterAppearance, TextStyle, TextFontStyle, ModelOrDraughting) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.TextCharacterAppearance = TextCharacterAppearance;
    this.TextStyle = TextStyle;
    this.TextFontStyle = TextFontStyle;
    this.ModelOrDraughting = ModelOrDraughting;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let TextCharacterAppearance = tape[ptr++];
    let TextStyle = tape[ptr++];
    let TextFontStyle = tape[ptr++];
    let ModelOrDraughting = tape[ptr++];
    return new IfcTextStyle(expressID, type, Name, TextCharacterAppearance, TextStyle, TextFontStyle, ModelOrDraughting);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.TextCharacterAppearance);
    ;
    args.push(this.TextStyle);
    ;
    args.push(this.TextFontStyle);
    ;
    args.push(this.ModelOrDraughting);
    ;
    return args;
  }
};
var IfcTextStyleFontModel = class {
  constructor(expressID, type, Name, FontFamily, FontStyle, FontVariant, FontWeight, FontSize) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.FontFamily = FontFamily;
    this.FontStyle = FontStyle;
    this.FontVariant = FontVariant;
    this.FontWeight = FontWeight;
    this.FontSize = FontSize;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let FontFamily = tape[ptr++];
    let FontStyle = tape[ptr++];
    let FontVariant = tape[ptr++];
    let FontWeight = tape[ptr++];
    let FontSize = tape[ptr++];
    return new IfcTextStyleFontModel(expressID, type, Name, FontFamily, FontStyle, FontVariant, FontWeight, FontSize);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.FontFamily);
    ;
    args.push(this.FontStyle);
    ;
    args.push(this.FontVariant);
    ;
    args.push(this.FontWeight);
    ;
    args.push(this.FontSize);
    ;
    return args;
  }
};
var IfcTextStyleForDefinedFont = class {
  constructor(expressID, type, Colour, BackgroundColour) {
    this.expressID = expressID;
    this.type = type;
    this.Colour = Colour;
    this.BackgroundColour = BackgroundColour;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Colour = tape[ptr++];
    let BackgroundColour = tape[ptr++];
    return new IfcTextStyleForDefinedFont(expressID, type, Colour, BackgroundColour);
  }
  ToTape() {
    let args = [];
    args.push(this.Colour);
    ;
    args.push(this.BackgroundColour);
    ;
    return args;
  }
};
var IfcTextStyleTextModel = class {
  constructor(expressID, type, TextIndent, TextAlign, TextDecoration, LetterSpacing, WordSpacing, TextTransform, LineHeight) {
    this.expressID = expressID;
    this.type = type;
    this.TextIndent = TextIndent;
    this.TextAlign = TextAlign;
    this.TextDecoration = TextDecoration;
    this.LetterSpacing = LetterSpacing;
    this.WordSpacing = WordSpacing;
    this.TextTransform = TextTransform;
    this.LineHeight = LineHeight;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TextIndent = tape[ptr++];
    let TextAlign = tape[ptr++];
    let TextDecoration = tape[ptr++];
    let LetterSpacing = tape[ptr++];
    let WordSpacing = tape[ptr++];
    let TextTransform = tape[ptr++];
    let LineHeight = tape[ptr++];
    return new IfcTextStyleTextModel(expressID, type, TextIndent, TextAlign, TextDecoration, LetterSpacing, WordSpacing, TextTransform, LineHeight);
  }
  ToTape() {
    let args = [];
    args.push(this.TextIndent);
    ;
    args.push(this.TextAlign);
    ;
    args.push(this.TextDecoration);
    ;
    args.push(this.LetterSpacing);
    ;
    args.push(this.WordSpacing);
    ;
    args.push(this.TextTransform);
    ;
    args.push(this.LineHeight);
    ;
    return args;
  }
};
var IfcTextureCoordinate = class {
  constructor(expressID, type, Maps) {
    this.expressID = expressID;
    this.type = type;
    this.Maps = Maps;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Maps = tape[ptr++];
    return new IfcTextureCoordinate(expressID, type, Maps);
  }
  ToTape() {
    let args = [];
    args.push(this.Maps);
    ;
    return args;
  }
};
var IfcTextureCoordinateGenerator = class {
  constructor(expressID, type, Maps, Mode, Parameter) {
    this.expressID = expressID;
    this.type = type;
    this.Maps = Maps;
    this.Mode = Mode;
    this.Parameter = Parameter;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Maps = tape[ptr++];
    let Mode = tape[ptr++];
    let Parameter = tape[ptr++];
    return new IfcTextureCoordinateGenerator(expressID, type, Maps, Mode, Parameter);
  }
  ToTape() {
    let args = [];
    args.push(this.Maps);
    ;
    args.push(this.Mode);
    ;
    args.push(this.Parameter);
    ;
    return args;
  }
};
var IfcTextureMap = class {
  constructor(expressID, type, Maps, Vertices, MappedTo) {
    this.expressID = expressID;
    this.type = type;
    this.Maps = Maps;
    this.Vertices = Vertices;
    this.MappedTo = MappedTo;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Maps = tape[ptr++];
    let Vertices = tape[ptr++];
    let MappedTo = tape[ptr++];
    return new IfcTextureMap(expressID, type, Maps, Vertices, MappedTo);
  }
  ToTape() {
    let args = [];
    args.push(this.Maps);
    ;
    args.push(this.Vertices);
    ;
    args.push(this.MappedTo);
    ;
    return args;
  }
};
var IfcTextureVertex = class {
  constructor(expressID, type, Coordinates) {
    this.expressID = expressID;
    this.type = type;
    this.Coordinates = Coordinates;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Coordinates = tape[ptr++];
    return new IfcTextureVertex(expressID, type, Coordinates);
  }
  ToTape() {
    let args = [];
    args.push(this.Coordinates);
    ;
    return args;
  }
};
var IfcTextureVertexList = class {
  constructor(expressID, type, TexCoordsList) {
    this.expressID = expressID;
    this.type = type;
    this.TexCoordsList = TexCoordsList;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let TexCoordsList = tape[ptr++];
    return new IfcTextureVertexList(expressID, type, TexCoordsList);
  }
  ToTape() {
    let args = [];
    args.push(this.TexCoordsList);
    ;
    return args;
  }
};
var IfcTimePeriod = class {
  constructor(expressID, type, StartTime, EndTime) {
    this.expressID = expressID;
    this.type = type;
    this.StartTime = StartTime;
    this.EndTime = EndTime;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let StartTime = tape[ptr++];
    let EndTime = tape[ptr++];
    return new IfcTimePeriod(expressID, type, StartTime, EndTime);
  }
  ToTape() {
    let args = [];
    args.push(this.StartTime);
    ;
    args.push(this.EndTime);
    ;
    return args;
  }
};
var IfcTimeSeries = class {
  constructor(expressID, type, Name, Description, StartTime, EndTime, TimeSeriesDataType, DataOrigin, UserDefinedDataOrigin, Unit) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.Description = Description;
    this.StartTime = StartTime;
    this.EndTime = EndTime;
    this.TimeSeriesDataType = TimeSeriesDataType;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.Unit = Unit;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let StartTime = tape[ptr++];
    let EndTime = tape[ptr++];
    let TimeSeriesDataType = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let Unit = tape[ptr++];
    return new IfcTimeSeries(expressID, type, Name, Description, StartTime, EndTime, TimeSeriesDataType, DataOrigin, UserDefinedDataOrigin, Unit);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.StartTime);
    ;
    args.push(this.EndTime);
    ;
    args.push(this.TimeSeriesDataType);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.Unit);
    ;
    return args;
  }
};
var IfcTimeSeriesValue = class {
  constructor(expressID, type, ListValues) {
    this.expressID = expressID;
    this.type = type;
    this.ListValues = ListValues;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ListValues = tape[ptr++];
    return new IfcTimeSeriesValue(expressID, type, ListValues);
  }
  ToTape() {
    let args = [];
    args.push(this.ListValues);
    ;
    return args;
  }
};
var IfcTopologicalRepresentationItem = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcTopologicalRepresentationItem(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcTopologyRepresentation = class {
  constructor(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items) {
    this.expressID = expressID;
    this.type = type;
    this.ContextOfItems = ContextOfItems;
    this.RepresentationIdentifier = RepresentationIdentifier;
    this.RepresentationType = RepresentationType;
    this.Items = Items;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ContextOfItems = tape[ptr++];
    let RepresentationIdentifier = tape[ptr++];
    let RepresentationType = tape[ptr++];
    let Items = tape[ptr++];
    return new IfcTopologyRepresentation(expressID, type, ContextOfItems, RepresentationIdentifier, RepresentationType, Items);
  }
  ToTape() {
    let args = [];
    args.push(this.ContextOfItems);
    ;
    args.push(this.RepresentationIdentifier);
    ;
    args.push(this.RepresentationType);
    ;
    args.push(this.Items);
    ;
    return args;
  }
};
var IfcToroidalSurface = class {
  constructor(expressID, type, Position, MajorRadius, MinorRadius) {
    this.expressID = expressID;
    this.type = type;
    this.Position = Position;
    this.MajorRadius = MajorRadius;
    this.MinorRadius = MinorRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Position = tape[ptr++];
    let MajorRadius = tape[ptr++];
    let MinorRadius = tape[ptr++];
    return new IfcToroidalSurface(expressID, type, Position, MajorRadius, MinorRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.Position);
    ;
    args.push(this.MajorRadius);
    ;
    args.push(this.MinorRadius);
    ;
    return args;
  }
};
var IfcTransformer = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTransformer(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTransformerType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTransformerType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTransitionCurveSegment2D = class {
  constructor(expressID, type, StartPoint, StartDirection, SegmentLength, StartRadius, EndRadius, IsStartRadiusCCW, IsEndRadiusCCW, TransitionCurveType) {
    this.expressID = expressID;
    this.type = type;
    this.StartPoint = StartPoint;
    this.StartDirection = StartDirection;
    this.SegmentLength = SegmentLength;
    this.StartRadius = StartRadius;
    this.EndRadius = EndRadius;
    this.IsStartRadiusCCW = IsStartRadiusCCW;
    this.IsEndRadiusCCW = IsEndRadiusCCW;
    this.TransitionCurveType = TransitionCurveType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let StartPoint = tape[ptr++];
    let StartDirection = tape[ptr++];
    let SegmentLength = tape[ptr++];
    let StartRadius = tape[ptr++];
    let EndRadius = tape[ptr++];
    let IsStartRadiusCCW = tape[ptr++];
    let IsEndRadiusCCW = tape[ptr++];
    let TransitionCurveType = tape[ptr++];
    return new IfcTransitionCurveSegment2D(expressID, type, StartPoint, StartDirection, SegmentLength, StartRadius, EndRadius, IsStartRadiusCCW, IsEndRadiusCCW, TransitionCurveType);
  }
  ToTape() {
    let args = [];
    args.push(this.StartPoint);
    ;
    args.push(this.StartDirection);
    ;
    args.push(this.SegmentLength);
    ;
    args.push(this.StartRadius);
    ;
    args.push(this.EndRadius);
    ;
    args.push(this.IsStartRadiusCCW);
    ;
    args.push(this.IsEndRadiusCCW);
    ;
    args.push(this.TransitionCurveType);
    ;
    return args;
  }
};
var IfcTransportElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTransportElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTransportElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTransportElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTrapeziumProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, BottomXDim, TopXDim, YDim, TopXOffset) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.BottomXDim = BottomXDim;
    this.TopXDim = TopXDim;
    this.YDim = YDim;
    this.TopXOffset = TopXOffset;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let BottomXDim = tape[ptr++];
    let TopXDim = tape[ptr++];
    let YDim = tape[ptr++];
    let TopXOffset = tape[ptr++];
    return new IfcTrapeziumProfileDef(expressID, type, ProfileType, ProfileName, Position, BottomXDim, TopXDim, YDim, TopXOffset);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.BottomXDim);
    ;
    args.push(this.TopXDim);
    ;
    args.push(this.YDim);
    ;
    args.push(this.TopXOffset);
    ;
    return args;
  }
};
var IfcTriangulatedFaceSet = class {
  constructor(expressID, type, Coordinates, Normals, Closed, CoordIndex, PnIndex) {
    this.expressID = expressID;
    this.type = type;
    this.Coordinates = Coordinates;
    this.Normals = Normals;
    this.Closed = Closed;
    this.CoordIndex = CoordIndex;
    this.PnIndex = PnIndex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Coordinates = tape[ptr++];
    let Normals = tape[ptr++];
    let Closed = tape[ptr++];
    let CoordIndex = tape[ptr++];
    let PnIndex = tape[ptr++];
    return new IfcTriangulatedFaceSet(expressID, type, Coordinates, Normals, Closed, CoordIndex, PnIndex);
  }
  ToTape() {
    let args = [];
    args.push(this.Coordinates);
    ;
    args.push(this.Normals);
    ;
    args.push(this.Closed);
    ;
    args.push(this.CoordIndex);
    ;
    args.push(this.PnIndex);
    ;
    return args;
  }
};
var IfcTriangulatedIrregularNetwork = class {
  constructor(expressID, type, Coordinates, Normals, Closed, CoordIndex, PnIndex, Flags) {
    this.expressID = expressID;
    this.type = type;
    this.Coordinates = Coordinates;
    this.Normals = Normals;
    this.Closed = Closed;
    this.CoordIndex = CoordIndex;
    this.PnIndex = PnIndex;
    this.Flags = Flags;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Coordinates = tape[ptr++];
    let Normals = tape[ptr++];
    let Closed = tape[ptr++];
    let CoordIndex = tape[ptr++];
    let PnIndex = tape[ptr++];
    let Flags = tape[ptr++];
    return new IfcTriangulatedIrregularNetwork(expressID, type, Coordinates, Normals, Closed, CoordIndex, PnIndex, Flags);
  }
  ToTape() {
    let args = [];
    args.push(this.Coordinates);
    ;
    args.push(this.Normals);
    ;
    args.push(this.Closed);
    ;
    args.push(this.CoordIndex);
    ;
    args.push(this.PnIndex);
    ;
    args.push(this.Flags);
    ;
    return args;
  }
};
var IfcTrimmedCurve = class {
  constructor(expressID, type, BasisCurve, Trim1, Trim2, SenseAgreement, MasterRepresentation) {
    this.expressID = expressID;
    this.type = type;
    this.BasisCurve = BasisCurve;
    this.Trim1 = Trim1;
    this.Trim2 = Trim2;
    this.SenseAgreement = SenseAgreement;
    this.MasterRepresentation = MasterRepresentation;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let BasisCurve = tape[ptr++];
    let Trim1 = tape[ptr++];
    let Trim2 = tape[ptr++];
    let SenseAgreement = tape[ptr++];
    let MasterRepresentation = tape[ptr++];
    return new IfcTrimmedCurve(expressID, type, BasisCurve, Trim1, Trim2, SenseAgreement, MasterRepresentation);
  }
  ToTape() {
    let args = [];
    args.push(this.BasisCurve);
    ;
    args.push(this.Trim1);
    ;
    args.push(this.Trim2);
    ;
    args.push(this.SenseAgreement);
    ;
    args.push(this.MasterRepresentation);
    ;
    return args;
  }
};
var IfcTubeBundle = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTubeBundle(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTubeBundleType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcTubeBundleType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcTypeObject = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    return new IfcTypeObject(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    return args;
  }
};
var IfcTypeProcess = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ProcessType = ProcessType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ProcessType = tape[ptr++];
    return new IfcTypeProcess(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ProcessType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ProcessType);
    ;
    return args;
  }
};
var IfcTypeProduct = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcTypeProduct(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcTypeResource = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.Identification = Identification;
    this.LongDescription = LongDescription;
    this.ResourceType = ResourceType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let Identification = tape[ptr++];
    let LongDescription = tape[ptr++];
    let ResourceType = tape[ptr++];
    return new IfcTypeResource(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, Identification, LongDescription, ResourceType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.Identification);
    ;
    args.push(this.LongDescription);
    ;
    args.push(this.ResourceType);
    ;
    return args;
  }
};
var IfcUShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Depth, FlangeWidth, WebThickness, FlangeThickness, FilletRadius, EdgeRadius, FlangeSlope) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Depth = Depth;
    this.FlangeWidth = FlangeWidth;
    this.WebThickness = WebThickness;
    this.FlangeThickness = FlangeThickness;
    this.FilletRadius = FilletRadius;
    this.EdgeRadius = EdgeRadius;
    this.FlangeSlope = FlangeSlope;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Depth = tape[ptr++];
    let FlangeWidth = tape[ptr++];
    let WebThickness = tape[ptr++];
    let FlangeThickness = tape[ptr++];
    let FilletRadius = tape[ptr++];
    let EdgeRadius = tape[ptr++];
    let FlangeSlope = tape[ptr++];
    return new IfcUShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, Depth, FlangeWidth, WebThickness, FlangeThickness, FilletRadius, EdgeRadius, FlangeSlope);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Depth);
    ;
    args.push(this.FlangeWidth);
    ;
    args.push(this.WebThickness);
    ;
    args.push(this.FlangeThickness);
    ;
    args.push(this.FilletRadius);
    ;
    args.push(this.EdgeRadius);
    ;
    args.push(this.FlangeSlope);
    ;
    return args;
  }
};
var IfcUnitAssignment = class {
  constructor(expressID, type, Units) {
    this.expressID = expressID;
    this.type = type;
    this.Units = Units;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Units = tape[ptr++];
    return new IfcUnitAssignment(expressID, type, Units);
  }
  ToTape() {
    let args = [];
    args.push(this.Units);
    ;
    return args;
  }
};
var IfcUnitaryControlElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcUnitaryControlElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcUnitaryControlElementType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcUnitaryControlElementType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcUnitaryEquipment = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcUnitaryEquipment(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcUnitaryEquipmentType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcUnitaryEquipmentType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcValve = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcValve(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcValveType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcValveType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcVector = class {
  constructor(expressID, type, Orientation, Magnitude) {
    this.expressID = expressID;
    this.type = type;
    this.Orientation = Orientation;
    this.Magnitude = Magnitude;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Orientation = tape[ptr++];
    let Magnitude = tape[ptr++];
    return new IfcVector(expressID, type, Orientation, Magnitude);
  }
  ToTape() {
    let args = [];
    args.push(this.Orientation);
    ;
    args.push(this.Magnitude);
    ;
    return args;
  }
};
var IfcVertex = class {
  constructor(expressID, type) {
    this.expressID = expressID;
    this.type = type;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    return new IfcVertex(expressID, type);
  }
  ToTape() {
    let args = [];
    return args;
  }
};
var IfcVertexLoop = class {
  constructor(expressID, type, LoopVertex) {
    this.expressID = expressID;
    this.type = type;
    this.LoopVertex = LoopVertex;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let LoopVertex = tape[ptr++];
    return new IfcVertexLoop(expressID, type, LoopVertex);
  }
  ToTape() {
    let args = [];
    args.push(this.LoopVertex);
    ;
    return args;
  }
};
var IfcVertexPoint = class {
  constructor(expressID, type, VertexGeometry) {
    this.expressID = expressID;
    this.type = type;
    this.VertexGeometry = VertexGeometry;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let VertexGeometry = tape[ptr++];
    return new IfcVertexPoint(expressID, type, VertexGeometry);
  }
  ToTape() {
    let args = [];
    args.push(this.VertexGeometry);
    ;
    return args;
  }
};
var IfcVibrationDamper = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcVibrationDamper(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcVibrationDamperType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcVibrationDamperType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcVibrationIsolator = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcVibrationIsolator(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcVibrationIsolatorType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcVibrationIsolatorType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcVirtualElement = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    return new IfcVirtualElement(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    return args;
  }
};
var IfcVirtualGridIntersection = class {
  constructor(expressID, type, IntersectingAxes, OffsetDistances) {
    this.expressID = expressID;
    this.type = type;
    this.IntersectingAxes = IntersectingAxes;
    this.OffsetDistances = OffsetDistances;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let IntersectingAxes = tape[ptr++];
    let OffsetDistances = tape[ptr++];
    return new IfcVirtualGridIntersection(expressID, type, IntersectingAxes, OffsetDistances);
  }
  ToTape() {
    let args = [];
    args.push(this.IntersectingAxes);
    ;
    args.push(this.OffsetDistances);
    ;
    return args;
  }
};
var IfcVoidingFeature = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcVoidingFeature(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWall = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWall(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWallElementedCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWallElementedCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWallStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWallStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWallType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWallType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWasteTerminal = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWasteTerminal(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWasteTerminalType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWasteTerminalType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWindow = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, PartitioningType, UserDefinedPartitioningType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.OverallHeight = OverallHeight;
    this.OverallWidth = OverallWidth;
    this.PredefinedType = PredefinedType;
    this.PartitioningType = PartitioningType;
    this.UserDefinedPartitioningType = UserDefinedPartitioningType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let OverallHeight = tape[ptr++];
    let OverallWidth = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let PartitioningType = tape[ptr++];
    let UserDefinedPartitioningType = tape[ptr++];
    return new IfcWindow(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, PartitioningType, UserDefinedPartitioningType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.OverallHeight);
    ;
    args.push(this.OverallWidth);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.PartitioningType);
    ;
    args.push(this.UserDefinedPartitioningType);
    ;
    return args;
  }
};
var IfcWindowLiningProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, LiningDepth, LiningThickness, TransomThickness, MullionThickness, FirstTransomOffset, SecondTransomOffset, FirstMullionOffset, SecondMullionOffset, ShapeAspectStyle, LiningOffset, LiningToPanelOffsetX, LiningToPanelOffsetY) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.LiningDepth = LiningDepth;
    this.LiningThickness = LiningThickness;
    this.TransomThickness = TransomThickness;
    this.MullionThickness = MullionThickness;
    this.FirstTransomOffset = FirstTransomOffset;
    this.SecondTransomOffset = SecondTransomOffset;
    this.FirstMullionOffset = FirstMullionOffset;
    this.SecondMullionOffset = SecondMullionOffset;
    this.ShapeAspectStyle = ShapeAspectStyle;
    this.LiningOffset = LiningOffset;
    this.LiningToPanelOffsetX = LiningToPanelOffsetX;
    this.LiningToPanelOffsetY = LiningToPanelOffsetY;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let LiningDepth = tape[ptr++];
    let LiningThickness = tape[ptr++];
    let TransomThickness = tape[ptr++];
    let MullionThickness = tape[ptr++];
    let FirstTransomOffset = tape[ptr++];
    let SecondTransomOffset = tape[ptr++];
    let FirstMullionOffset = tape[ptr++];
    let SecondMullionOffset = tape[ptr++];
    let ShapeAspectStyle = tape[ptr++];
    let LiningOffset = tape[ptr++];
    let LiningToPanelOffsetX = tape[ptr++];
    let LiningToPanelOffsetY = tape[ptr++];
    return new IfcWindowLiningProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, LiningDepth, LiningThickness, TransomThickness, MullionThickness, FirstTransomOffset, SecondTransomOffset, FirstMullionOffset, SecondMullionOffset, ShapeAspectStyle, LiningOffset, LiningToPanelOffsetX, LiningToPanelOffsetY);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.LiningDepth);
    ;
    args.push(this.LiningThickness);
    ;
    args.push(this.TransomThickness);
    ;
    args.push(this.MullionThickness);
    ;
    args.push(this.FirstTransomOffset);
    ;
    args.push(this.SecondTransomOffset);
    ;
    args.push(this.FirstMullionOffset);
    ;
    args.push(this.SecondMullionOffset);
    ;
    args.push(this.ShapeAspectStyle);
    ;
    args.push(this.LiningOffset);
    ;
    args.push(this.LiningToPanelOffsetX);
    ;
    args.push(this.LiningToPanelOffsetY);
    ;
    return args;
  }
};
var IfcWindowPanelProperties = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, OperationType, PanelPosition, FrameDepth, FrameThickness, ShapeAspectStyle) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.OperationType = OperationType;
    this.PanelPosition = PanelPosition;
    this.FrameDepth = FrameDepth;
    this.FrameThickness = FrameThickness;
    this.ShapeAspectStyle = ShapeAspectStyle;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let OperationType = tape[ptr++];
    let PanelPosition = tape[ptr++];
    let FrameDepth = tape[ptr++];
    let FrameThickness = tape[ptr++];
    let ShapeAspectStyle = tape[ptr++];
    return new IfcWindowPanelProperties(expressID, type, GlobalId, OwnerHistory, Name, Description, OperationType, PanelPosition, FrameDepth, FrameThickness, ShapeAspectStyle);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.PanelPosition);
    ;
    args.push(this.FrameDepth);
    ;
    args.push(this.FrameThickness);
    ;
    args.push(this.ShapeAspectStyle);
    ;
    return args;
  }
};
var IfcWindowStandardCase = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, PartitioningType, UserDefinedPartitioningType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.ObjectPlacement = ObjectPlacement;
    this.Representation = Representation;
    this.Tag = Tag;
    this.OverallHeight = OverallHeight;
    this.OverallWidth = OverallWidth;
    this.PredefinedType = PredefinedType;
    this.PartitioningType = PartitioningType;
    this.UserDefinedPartitioningType = UserDefinedPartitioningType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let ObjectPlacement = tape[ptr++];
    let Representation = tape[ptr++];
    let Tag = tape[ptr++];
    let OverallHeight = tape[ptr++];
    let OverallWidth = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let PartitioningType = tape[ptr++];
    let UserDefinedPartitioningType = tape[ptr++];
    return new IfcWindowStandardCase(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, ObjectPlacement, Representation, Tag, OverallHeight, OverallWidth, PredefinedType, PartitioningType, UserDefinedPartitioningType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.ObjectPlacement);
    ;
    args.push(this.Representation);
    ;
    args.push(this.Tag);
    ;
    args.push(this.OverallHeight);
    ;
    args.push(this.OverallWidth);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.PartitioningType);
    ;
    args.push(this.UserDefinedPartitioningType);
    ;
    return args;
  }
};
var IfcWindowStyle = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ConstructionType, OperationType, ParameterTakesPrecedence, Sizeable) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ConstructionType = ConstructionType;
    this.OperationType = OperationType;
    this.ParameterTakesPrecedence = ParameterTakesPrecedence;
    this.Sizeable = Sizeable;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ConstructionType = tape[ptr++];
    let OperationType = tape[ptr++];
    let ParameterTakesPrecedence = tape[ptr++];
    let Sizeable = tape[ptr++];
    return new IfcWindowStyle(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ConstructionType, OperationType, ParameterTakesPrecedence, Sizeable);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ConstructionType);
    ;
    args.push(this.OperationType);
    ;
    args.push(this.ParameterTakesPrecedence);
    ;
    args.push(this.Sizeable);
    ;
    return args;
  }
};
var IfcWindowType = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, PartitioningType, ParameterTakesPrecedence, UserDefinedPartitioningType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ApplicableOccurrence = ApplicableOccurrence;
    this.HasPropertySets = HasPropertySets;
    this.RepresentationMaps = RepresentationMaps;
    this.Tag = Tag;
    this.ElementType = ElementType;
    this.PredefinedType = PredefinedType;
    this.PartitioningType = PartitioningType;
    this.ParameterTakesPrecedence = ParameterTakesPrecedence;
    this.UserDefinedPartitioningType = UserDefinedPartitioningType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ApplicableOccurrence = tape[ptr++];
    let HasPropertySets = tape[ptr++];
    let RepresentationMaps = tape[ptr++];
    let Tag = tape[ptr++];
    let ElementType = tape[ptr++];
    let PredefinedType = tape[ptr++];
    let PartitioningType = tape[ptr++];
    let ParameterTakesPrecedence = tape[ptr++];
    let UserDefinedPartitioningType = tape[ptr++];
    return new IfcWindowType(expressID, type, GlobalId, OwnerHistory, Name, Description, ApplicableOccurrence, HasPropertySets, RepresentationMaps, Tag, ElementType, PredefinedType, PartitioningType, ParameterTakesPrecedence, UserDefinedPartitioningType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ApplicableOccurrence);
    ;
    args.push(this.HasPropertySets);
    ;
    args.push(this.RepresentationMaps);
    ;
    args.push(this.Tag);
    ;
    args.push(this.ElementType);
    ;
    args.push(this.PredefinedType);
    ;
    args.push(this.PartitioningType);
    ;
    args.push(this.ParameterTakesPrecedence);
    ;
    args.push(this.UserDefinedPartitioningType);
    ;
    return args;
  }
};
var IfcWorkCalendar = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, WorkingTimes, ExceptionTimes, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.WorkingTimes = WorkingTimes;
    this.ExceptionTimes = ExceptionTimes;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let WorkingTimes = tape[ptr++];
    let ExceptionTimes = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWorkCalendar(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, WorkingTimes, ExceptionTimes, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.WorkingTimes);
    ;
    args.push(this.ExceptionTimes);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWorkControl = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, CreationDate, Creators, Purpose, Duration, TotalFloat, StartTime, FinishTime) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.CreationDate = CreationDate;
    this.Creators = Creators;
    this.Purpose = Purpose;
    this.Duration = Duration;
    this.TotalFloat = TotalFloat;
    this.StartTime = StartTime;
    this.FinishTime = FinishTime;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let CreationDate = tape[ptr++];
    let Creators = tape[ptr++];
    let Purpose = tape[ptr++];
    let Duration = tape[ptr++];
    let TotalFloat = tape[ptr++];
    let StartTime = tape[ptr++];
    let FinishTime = tape[ptr++];
    return new IfcWorkControl(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, CreationDate, Creators, Purpose, Duration, TotalFloat, StartTime, FinishTime);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.CreationDate);
    ;
    args.push(this.Creators);
    ;
    args.push(this.Purpose);
    ;
    args.push(this.Duration);
    ;
    args.push(this.TotalFloat);
    ;
    args.push(this.StartTime);
    ;
    args.push(this.FinishTime);
    ;
    return args;
  }
};
var IfcWorkPlan = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, CreationDate, Creators, Purpose, Duration, TotalFloat, StartTime, FinishTime, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.CreationDate = CreationDate;
    this.Creators = Creators;
    this.Purpose = Purpose;
    this.Duration = Duration;
    this.TotalFloat = TotalFloat;
    this.StartTime = StartTime;
    this.FinishTime = FinishTime;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let CreationDate = tape[ptr++];
    let Creators = tape[ptr++];
    let Purpose = tape[ptr++];
    let Duration = tape[ptr++];
    let TotalFloat = tape[ptr++];
    let StartTime = tape[ptr++];
    let FinishTime = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWorkPlan(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, CreationDate, Creators, Purpose, Duration, TotalFloat, StartTime, FinishTime, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.CreationDate);
    ;
    args.push(this.Creators);
    ;
    args.push(this.Purpose);
    ;
    args.push(this.Duration);
    ;
    args.push(this.TotalFloat);
    ;
    args.push(this.StartTime);
    ;
    args.push(this.FinishTime);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWorkSchedule = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, CreationDate, Creators, Purpose, Duration, TotalFloat, StartTime, FinishTime, PredefinedType) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.Identification = Identification;
    this.CreationDate = CreationDate;
    this.Creators = Creators;
    this.Purpose = Purpose;
    this.Duration = Duration;
    this.TotalFloat = TotalFloat;
    this.StartTime = StartTime;
    this.FinishTime = FinishTime;
    this.PredefinedType = PredefinedType;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let Identification = tape[ptr++];
    let CreationDate = tape[ptr++];
    let Creators = tape[ptr++];
    let Purpose = tape[ptr++];
    let Duration = tape[ptr++];
    let TotalFloat = tape[ptr++];
    let StartTime = tape[ptr++];
    let FinishTime = tape[ptr++];
    let PredefinedType = tape[ptr++];
    return new IfcWorkSchedule(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, Identification, CreationDate, Creators, Purpose, Duration, TotalFloat, StartTime, FinishTime, PredefinedType);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.Identification);
    ;
    args.push(this.CreationDate);
    ;
    args.push(this.Creators);
    ;
    args.push(this.Purpose);
    ;
    args.push(this.Duration);
    ;
    args.push(this.TotalFloat);
    ;
    args.push(this.StartTime);
    ;
    args.push(this.FinishTime);
    ;
    args.push(this.PredefinedType);
    ;
    return args;
  }
};
var IfcWorkTime = class {
  constructor(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, RecurrencePattern, Start, Finish) {
    this.expressID = expressID;
    this.type = type;
    this.Name = Name;
    this.DataOrigin = DataOrigin;
    this.UserDefinedDataOrigin = UserDefinedDataOrigin;
    this.RecurrencePattern = RecurrencePattern;
    this.Start = Start;
    this.Finish = Finish;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let Name = tape[ptr++];
    let DataOrigin = tape[ptr++];
    let UserDefinedDataOrigin = tape[ptr++];
    let RecurrencePattern = tape[ptr++];
    let Start = tape[ptr++];
    let Finish = tape[ptr++];
    return new IfcWorkTime(expressID, type, Name, DataOrigin, UserDefinedDataOrigin, RecurrencePattern, Start, Finish);
  }
  ToTape() {
    let args = [];
    args.push(this.Name);
    ;
    args.push(this.DataOrigin);
    ;
    args.push(this.UserDefinedDataOrigin);
    ;
    args.push(this.RecurrencePattern);
    ;
    args.push(this.Start);
    ;
    args.push(this.Finish);
    ;
    return args;
  }
};
var IfcZShapeProfileDef = class {
  constructor(expressID, type, ProfileType, ProfileName, Position, Depth, FlangeWidth, WebThickness, FlangeThickness, FilletRadius, EdgeRadius) {
    this.expressID = expressID;
    this.type = type;
    this.ProfileType = ProfileType;
    this.ProfileName = ProfileName;
    this.Position = Position;
    this.Depth = Depth;
    this.FlangeWidth = FlangeWidth;
    this.WebThickness = WebThickness;
    this.FlangeThickness = FlangeThickness;
    this.FilletRadius = FilletRadius;
    this.EdgeRadius = EdgeRadius;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let ProfileType = tape[ptr++];
    let ProfileName = tape[ptr++];
    let Position = tape[ptr++];
    let Depth = tape[ptr++];
    let FlangeWidth = tape[ptr++];
    let WebThickness = tape[ptr++];
    let FlangeThickness = tape[ptr++];
    let FilletRadius = tape[ptr++];
    let EdgeRadius = tape[ptr++];
    return new IfcZShapeProfileDef(expressID, type, ProfileType, ProfileName, Position, Depth, FlangeWidth, WebThickness, FlangeThickness, FilletRadius, EdgeRadius);
  }
  ToTape() {
    let args = [];
    args.push(this.ProfileType);
    ;
    args.push(this.ProfileName);
    ;
    args.push(this.Position);
    ;
    args.push(this.Depth);
    ;
    args.push(this.FlangeWidth);
    ;
    args.push(this.WebThickness);
    ;
    args.push(this.FlangeThickness);
    ;
    args.push(this.FilletRadius);
    ;
    args.push(this.EdgeRadius);
    ;
    return args;
  }
};
var IfcZone = class {
  constructor(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName) {
    this.expressID = expressID;
    this.type = type;
    this.GlobalId = GlobalId;
    this.OwnerHistory = OwnerHistory;
    this.Name = Name;
    this.Description = Description;
    this.ObjectType = ObjectType;
    this.LongName = LongName;
  }
  static FromTape(expressID, type, tape) {
    let ptr = 0;
    let GlobalId = tape[ptr++];
    let OwnerHistory = tape[ptr++];
    let Name = tape[ptr++];
    let Description = tape[ptr++];
    let ObjectType = tape[ptr++];
    let LongName = tape[ptr++];
    return new IfcZone(expressID, type, GlobalId, OwnerHistory, Name, Description, ObjectType, LongName);
  }
  ToTape() {
    let args = [];
    args.push(this.GlobalId);
    ;
    args.push(this.OwnerHistory);
    ;
    args.push(this.Name);
    ;
    args.push(this.Description);
    ;
    args.push(this.ObjectType);
    ;
    args.push(this.LongName);
    ;
    return args;
  }
};

// dist/web-ifc-api.ts
var WebIFCWasm = require_web_ifc();
var UNKNOWN = 0;
var STRING = 1;
var LABEL = 2;
var ENUM = 3;
var REAL = 4;
var REF = 5;
var EMPTY = 6;
var SET_BEGIN = 7;
var SET_END = 8;
var LINE_END = 9;
function ms() {
  return new Date().getTime();
}
var IfcAPI = class {
  constructor() {
    this.wasmModule = void 0;
    this.fs = void 0;
  }
  Init() {
    return __async(this, null, function* () {
      if (WebIFCWasm) {
        this.wasmModule = yield WebIFCWasm({ noInitialRun: true });
        this.fs = this.wasmModule.FS;
      } else {
        console.error(`Could not find wasm module at './web-ifc' from web-ifc-api.ts`);
      }
    });
  }
  OpenModel(data, settings) {
    this.wasmModule["FS_createDataFile"]("/", "filename", data, true, true, true);
    let s = __spreadValues({
      COORDINATE_TO_ORIGIN: false,
      USE_FAST_BOOLS: false,
      CIRCLE_SEGMENTS_LOW: 5,
      CIRCLE_SEGMENTS_MEDIUM: 8,
      CIRCLE_SEGMENTS_HIGH: 12
    }, settings);
    let result = this.wasmModule.OpenModel(s);
    this.wasmModule["FS_unlink"]("/filename");
    return result;
  }
  CreateModel(settings) {
    let s = __spreadValues({
      COORDINATE_TO_ORIGIN: false,
      USE_FAST_BOOLS: false,
      CIRCLE_SEGMENTS_LOW: 5,
      CIRCLE_SEGMENTS_MEDIUM: 8,
      CIRCLE_SEGMENTS_HIGH: 12
    }, settings);
    let result = this.wasmModule.CreateModel(s);
    return result;
  }
  ExportFileAsIFC(modelID) {
    this.wasmModule.ExportFileAsIFC(modelID);
    let result = this.fs.readFile("/export.ifc");
    this.wasmModule["FS_unlink"]("/export.ifc");
    return result;
  }
  GetGeometry(modelID, geometryExpressID) {
    return this.wasmModule.GetGeometry(modelID, geometryExpressID);
  }
  GetLine(modelID, expressID, flatten = false) {
    let rawLineData = this.GetRawLineData(modelID, expressID);
    let lineData = FromRawLineData[rawLineData.type](rawLineData);
    if (flatten) {
      this.FlattenLine(modelID, lineData);
    }
    return lineData;
  }
  WriteLine(modelID, lineObject) {
    Object.keys(lineObject).forEach((propertyName) => {
      let property = lineObject[propertyName];
      if (property && property.expressID !== void 0) {
        this.WriteLine(modelID, property);
        lineObject[propertyName] = {
          type: 5,
          value: property.expressID
        };
      } else if (Array.isArray(property) && property.length > 0) {
        for (let i = 0; i < property.length; i++) {
          if (property[i].expressID !== void 0) {
            this.WriteLine(modelID, property[i]);
            lineObject[propertyName][i] = {
              type: 5,
              value: property[i].expressID
            };
          }
        }
      }
    });
    let rawLineData = {
      ID: lineObject.expressID,
      type: lineObject.type,
      arguments: lineObject.ToTape()
    };
    this.WriteRawLineData(modelID, rawLineData);
  }
  FlattenLine(modelID, line) {
    Object.keys(line).forEach((propertyName) => {
      let property = line[propertyName];
      if (property && property.type === 5) {
        line[propertyName] = this.GetLine(modelID, property.value, true);
      } else if (Array.isArray(property) && property.length > 0 && property[0].type === 5) {
        for (let i = 0; i < property.length; i++) {
          line[propertyName][i] = this.GetLine(modelID, property[i].value, true);
        }
      }
    });
  }
  GetRawLineData(modelID, expressID) {
    return this.wasmModule.GetLine(modelID, expressID);
  }
  WriteRawLineData(modelID, data) {
    return this.wasmModule.WriteLine(modelID, data.ID, data.type, data.arguments);
  }
  GetLineIDsWithType(modelID, type) {
    return this.wasmModule.GetLineIDsWithType(modelID, type);
  }
  GetAllLines(modelID) {
    return this.wasmModule.GetAllLines(modelID);
  }
  SetGeometryTransformation(modelID, transformationMatrix) {
    if (transformationMatrix.length != 16) {
      console.log(`Bad transformation matrix size: ${transformationMatrix.length}`);
      return;
    }
    this.wasmModule.SetGeometryTransformation(modelID, transformationMatrix);
  }
  GetVertexArray(ptr, size) {
    return this.getSubArray(this.wasmModule.HEAPF32, ptr, size);
  }
  GetIndexArray(ptr, size) {
    return this.getSubArray(this.wasmModule.HEAPU32, ptr, size);
  }
  getSubArray(heap, startPtr, sizeBytes) {
    return heap.subarray(startPtr / 4, startPtr / 4 + sizeBytes).slice(0);
  }
  CloseModel(modelID) {
    this.wasmModule.CloseModel(modelID);
  }
  StreamAllMeshes(modelID, meshCallback) {
    this.wasmModule.StreamAllMeshes(modelID, meshCallback);
  }
  IsModelOpen(modelID) {
    return this.wasmModule.IsModelOpen(modelID);
  }
  LoadAllGeometry(modelID) {
    return this.wasmModule.LoadAllGeometry(modelID);
  }
  GetFlatMesh(modelID, expressID) {
    return this.wasmModule.GetFlatMesh(modelID, expressID);
  }
  SetWasmPath(path) {
    WasmPath = path;
  }
};
export {
  EMPTY,
  ENUM,
  FromRawLineData,
  Handle,
  IFCACTIONREQUEST,
  IFCACTOR,
  IFCACTORROLE,
  IFCACTUATOR,
  IFCACTUATORTYPE,
  IFCADDRESS,
  IFCADVANCEDBREP,
  IFCADVANCEDBREPWITHVOIDS,
  IFCADVANCEDFACE,
  IFCAIRTERMINAL,
  IFCAIRTERMINALBOX,
  IFCAIRTERMINALBOXTYPE,
  IFCAIRTERMINALTYPE,
  IFCAIRTOAIRHEATRECOVERY,
  IFCAIRTOAIRHEATRECOVERYTYPE,
  IFCALARM,
  IFCALARMTYPE,
  IFCALIGNMENT,
  IFCALIGNMENT2DHORIZONTAL,
  IFCALIGNMENT2DHORIZONTALSEGMENT,
  IFCALIGNMENT2DSEGMENT,
  IFCALIGNMENT2DVERSEGCIRCULARARC,
  IFCALIGNMENT2DVERSEGLINE,
  IFCALIGNMENT2DVERSEGPARABOLICARC,
  IFCALIGNMENT2DVERTICAL,
  IFCALIGNMENT2DVERTICALSEGMENT,
  IFCALIGNMENTCURVE,
  IFCANNOTATION,
  IFCANNOTATIONFILLAREA,
  IFCAPPLICATION,
  IFCAPPLIEDVALUE,
  IFCAPPROVAL,
  IFCAPPROVALRELATIONSHIP,
  IFCARBITRARYCLOSEDPROFILEDEF,
  IFCARBITRARYOPENPROFILEDEF,
  IFCARBITRARYPROFILEDEFWITHVOIDS,
  IFCASSET,
  IFCASYMMETRICISHAPEPROFILEDEF,
  IFCAUDIOVISUALAPPLIANCE,
  IFCAUDIOVISUALAPPLIANCETYPE,
  IFCAXIS1PLACEMENT,
  IFCAXIS2PLACEMENT2D,
  IFCAXIS2PLACEMENT3D,
  IFCBEAM,
  IFCBEAMSTANDARDCASE,
  IFCBEAMTYPE,
  IFCBEARING,
  IFCBEARINGTYPE,
  IFCBLOBTEXTURE,
  IFCBLOCK,
  IFCBOILER,
  IFCBOILERTYPE,
  IFCBOOLEANCLIPPINGRESULT,
  IFCBOOLEANRESULT,
  IFCBOUNDARYCONDITION,
  IFCBOUNDARYCURVE,
  IFCBOUNDARYEDGECONDITION,
  IFCBOUNDARYFACECONDITION,
  IFCBOUNDARYNODECONDITION,
  IFCBOUNDARYNODECONDITIONWARPING,
  IFCBOUNDEDCURVE,
  IFCBOUNDEDSURFACE,
  IFCBOUNDINGBOX,
  IFCBOXEDHALFSPACE,
  IFCBRIDGE,
  IFCBRIDGEPART,
  IFCBSPLINECURVE,
  IFCBSPLINECURVEWITHKNOTS,
  IFCBSPLINESURFACE,
  IFCBSPLINESURFACEWITHKNOTS,
  IFCBUILDING,
  IFCBUILDINGELEMENT,
  IFCBUILDINGELEMENTPART,
  IFCBUILDINGELEMENTPARTTYPE,
  IFCBUILDINGELEMENTPROXY,
  IFCBUILDINGELEMENTPROXYTYPE,
  IFCBUILDINGELEMENTTYPE,
  IFCBUILDINGSTOREY,
  IFCBUILDINGSYSTEM,
  IFCBURNER,
  IFCBURNERTYPE,
  IFCCABLECARRIERFITTING,
  IFCCABLECARRIERFITTINGTYPE,
  IFCCABLECARRIERSEGMENT,
  IFCCABLECARRIERSEGMENTTYPE,
  IFCCABLEFITTING,
  IFCCABLEFITTINGTYPE,
  IFCCABLESEGMENT,
  IFCCABLESEGMENTTYPE,
  IFCCAISSONFOUNDATION,
  IFCCAISSONFOUNDATIONTYPE,
  IFCCARTESIANPOINT,
  IFCCARTESIANPOINTLIST,
  IFCCARTESIANPOINTLIST2D,
  IFCCARTESIANPOINTLIST3D,
  IFCCARTESIANTRANSFORMATIONOPERATOR,
  IFCCARTESIANTRANSFORMATIONOPERATOR2D,
  IFCCARTESIANTRANSFORMATIONOPERATOR2DNONUNIFORM,
  IFCCARTESIANTRANSFORMATIONOPERATOR3D,
  IFCCARTESIANTRANSFORMATIONOPERATOR3DNONUNIFORM,
  IFCCENTERLINEPROFILEDEF,
  IFCCHILLER,
  IFCCHILLERTYPE,
  IFCCHIMNEY,
  IFCCHIMNEYTYPE,
  IFCCIRCLE,
  IFCCIRCLEHOLLOWPROFILEDEF,
  IFCCIRCLEPROFILEDEF,
  IFCCIRCULARARCSEGMENT2D,
  IFCCIVILELEMENT,
  IFCCIVILELEMENTTYPE,
  IFCCLASSIFICATION,
  IFCCLASSIFICATIONREFERENCE,
  IFCCLOSEDSHELL,
  IFCCOIL,
  IFCCOILTYPE,
  IFCCOLOURRGB,
  IFCCOLOURRGBLIST,
  IFCCOLOURSPECIFICATION,
  IFCCOLUMN,
  IFCCOLUMNSTANDARDCASE,
  IFCCOLUMNTYPE,
  IFCCOMMUNICATIONSAPPLIANCE,
  IFCCOMMUNICATIONSAPPLIANCETYPE,
  IFCCOMPLEXPROPERTY,
  IFCCOMPLEXPROPERTYTEMPLATE,
  IFCCOMPOSITECURVE,
  IFCCOMPOSITECURVEONSURFACE,
  IFCCOMPOSITECURVESEGMENT,
  IFCCOMPOSITEPROFILEDEF,
  IFCCOMPRESSOR,
  IFCCOMPRESSORTYPE,
  IFCCONDENSER,
  IFCCONDENSERTYPE,
  IFCCONIC,
  IFCCONNECTEDFACESET,
  IFCCONNECTIONCURVEGEOMETRY,
  IFCCONNECTIONGEOMETRY,
  IFCCONNECTIONPOINTECCENTRICITY,
  IFCCONNECTIONPOINTGEOMETRY,
  IFCCONNECTIONSURFACEGEOMETRY,
  IFCCONNECTIONVOLUMEGEOMETRY,
  IFCCONSTRAINT,
  IFCCONSTRUCTIONEQUIPMENTRESOURCE,
  IFCCONSTRUCTIONEQUIPMENTRESOURCETYPE,
  IFCCONSTRUCTIONMATERIALRESOURCE,
  IFCCONSTRUCTIONMATERIALRESOURCETYPE,
  IFCCONSTRUCTIONPRODUCTRESOURCE,
  IFCCONSTRUCTIONPRODUCTRESOURCETYPE,
  IFCCONSTRUCTIONRESOURCE,
  IFCCONSTRUCTIONRESOURCETYPE,
  IFCCONTEXT,
  IFCCONTEXTDEPENDENTUNIT,
  IFCCONTROL,
  IFCCONTROLLER,
  IFCCONTROLLERTYPE,
  IFCCONVERSIONBASEDUNIT,
  IFCCONVERSIONBASEDUNITWITHOFFSET,
  IFCCOOLEDBEAM,
  IFCCOOLEDBEAMTYPE,
  IFCCOOLINGTOWER,
  IFCCOOLINGTOWERTYPE,
  IFCCOORDINATEOPERATION,
  IFCCOORDINATEREFERENCESYSTEM,
  IFCCOSTITEM,
  IFCCOSTSCHEDULE,
  IFCCOSTVALUE,
  IFCCOVERING,
  IFCCOVERINGTYPE,
  IFCCREWRESOURCE,
  IFCCREWRESOURCETYPE,
  IFCCSGPRIMITIVE3D,
  IFCCSGSOLID,
  IFCCSHAPEPROFILEDEF,
  IFCCURRENCYRELATIONSHIP,
  IFCCURTAINWALL,
  IFCCURTAINWALLTYPE,
  IFCCURVE,
  IFCCURVEBOUNDEDPLANE,
  IFCCURVEBOUNDEDSURFACE,
  IFCCURVESEGMENT2D,
  IFCCURVESTYLE,
  IFCCURVESTYLEFONT,
  IFCCURVESTYLEFONTANDSCALING,
  IFCCURVESTYLEFONTPATTERN,
  IFCCYLINDRICALSURFACE,
  IFCDAMPER,
  IFCDAMPERTYPE,
  IFCDEEPFOUNDATION,
  IFCDEEPFOUNDATIONTYPE,
  IFCDERIVEDPROFILEDEF,
  IFCDERIVEDUNIT,
  IFCDERIVEDUNITELEMENT,
  IFCDIMENSIONALEXPONENTS,
  IFCDIRECTION,
  IFCDISCRETEACCESSORY,
  IFCDISCRETEACCESSORYTYPE,
  IFCDISTANCEEXPRESSION,
  IFCDISTRIBUTIONCHAMBERELEMENT,
  IFCDISTRIBUTIONCHAMBERELEMENTTYPE,
  IFCDISTRIBUTIONCIRCUIT,
  IFCDISTRIBUTIONCONTROLELEMENT,
  IFCDISTRIBUTIONCONTROLELEMENTTYPE,
  IFCDISTRIBUTIONELEMENT,
  IFCDISTRIBUTIONELEMENTTYPE,
  IFCDISTRIBUTIONFLOWELEMENT,
  IFCDISTRIBUTIONFLOWELEMENTTYPE,
  IFCDISTRIBUTIONPORT,
  IFCDISTRIBUTIONSYSTEM,
  IFCDOCUMENTINFORMATION,
  IFCDOCUMENTINFORMATIONRELATIONSHIP,
  IFCDOCUMENTREFERENCE,
  IFCDOOR,
  IFCDOORLININGPROPERTIES,
  IFCDOORPANELPROPERTIES,
  IFCDOORSTANDARDCASE,
  IFCDOORSTYLE,
  IFCDOORTYPE,
  IFCDRAUGHTINGPREDEFINEDCOLOUR,
  IFCDRAUGHTINGPREDEFINEDCURVEFONT,
  IFCDUCTFITTING,
  IFCDUCTFITTINGTYPE,
  IFCDUCTSEGMENT,
  IFCDUCTSEGMENTTYPE,
  IFCDUCTSILENCER,
  IFCDUCTSILENCERTYPE,
  IFCEDGE,
  IFCEDGECURVE,
  IFCEDGELOOP,
  IFCELECTRICAPPLIANCE,
  IFCELECTRICAPPLIANCETYPE,
  IFCELECTRICDISTRIBUTIONBOARD,
  IFCELECTRICDISTRIBUTIONBOARDTYPE,
  IFCELECTRICFLOWSTORAGEDEVICE,
  IFCELECTRICFLOWSTORAGEDEVICETYPE,
  IFCELECTRICGENERATOR,
  IFCELECTRICGENERATORTYPE,
  IFCELECTRICMOTOR,
  IFCELECTRICMOTORTYPE,
  IFCELECTRICTIMECONTROL,
  IFCELECTRICTIMECONTROLTYPE,
  IFCELEMENT,
  IFCELEMENTARYSURFACE,
  IFCELEMENTASSEMBLY,
  IFCELEMENTASSEMBLYTYPE,
  IFCELEMENTCOMPONENT,
  IFCELEMENTCOMPONENTTYPE,
  IFCELEMENTQUANTITY,
  IFCELEMENTTYPE,
  IFCELLIPSE,
  IFCELLIPSEPROFILEDEF,
  IFCENERGYCONVERSIONDEVICE,
  IFCENERGYCONVERSIONDEVICETYPE,
  IFCENGINE,
  IFCENGINETYPE,
  IFCEVAPORATIVECOOLER,
  IFCEVAPORATIVECOOLERTYPE,
  IFCEVAPORATOR,
  IFCEVAPORATORTYPE,
  IFCEVENT,
  IFCEVENTTIME,
  IFCEVENTTYPE,
  IFCEXTENDEDPROPERTIES,
  IFCEXTERNALINFORMATION,
  IFCEXTERNALLYDEFINEDHATCHSTYLE,
  IFCEXTERNALLYDEFINEDSURFACESTYLE,
  IFCEXTERNALLYDEFINEDTEXTFONT,
  IFCEXTERNALREFERENCE,
  IFCEXTERNALREFERENCERELATIONSHIP,
  IFCEXTERNALSPATIALELEMENT,
  IFCEXTERNALSPATIALSTRUCTUREELEMENT,
  IFCEXTRUDEDAREASOLID,
  IFCEXTRUDEDAREASOLIDTAPERED,
  IFCFACE,
  IFCFACEBASEDSURFACEMODEL,
  IFCFACEBOUND,
  IFCFACEOUTERBOUND,
  IFCFACESURFACE,
  IFCFACETEDBREP,
  IFCFACETEDBREPWITHVOIDS,
  IFCFACILITY,
  IFCFACILITYPART,
  IFCFAILURECONNECTIONCONDITION,
  IFCFAN,
  IFCFANTYPE,
  IFCFASTENER,
  IFCFASTENERTYPE,
  IFCFEATUREELEMENT,
  IFCFEATUREELEMENTADDITION,
  IFCFEATUREELEMENTSUBTRACTION,
  IFCFILLAREASTYLE,
  IFCFILLAREASTYLEHATCHING,
  IFCFILLAREASTYLETILES,
  IFCFILTER,
  IFCFILTERTYPE,
  IFCFIRESUPPRESSIONTERMINAL,
  IFCFIRESUPPRESSIONTERMINALTYPE,
  IFCFIXEDREFERENCESWEPTAREASOLID,
  IFCFLOWCONTROLLER,
  IFCFLOWCONTROLLERTYPE,
  IFCFLOWFITTING,
  IFCFLOWFITTINGTYPE,
  IFCFLOWINSTRUMENT,
  IFCFLOWINSTRUMENTTYPE,
  IFCFLOWMETER,
  IFCFLOWMETERTYPE,
  IFCFLOWMOVINGDEVICE,
  IFCFLOWMOVINGDEVICETYPE,
  IFCFLOWSEGMENT,
  IFCFLOWSEGMENTTYPE,
  IFCFLOWSTORAGEDEVICE,
  IFCFLOWSTORAGEDEVICETYPE,
  IFCFLOWTERMINAL,
  IFCFLOWTERMINALTYPE,
  IFCFLOWTREATMENTDEVICE,
  IFCFLOWTREATMENTDEVICETYPE,
  IFCFOOTING,
  IFCFOOTINGTYPE,
  IFCFURNISHINGELEMENT,
  IFCFURNISHINGELEMENTTYPE,
  IFCFURNITURE,
  IFCFURNITURETYPE,
  IFCGEOGRAPHICELEMENT,
  IFCGEOGRAPHICELEMENTTYPE,
  IFCGEOMETRICCURVESET,
  IFCGEOMETRICREPRESENTATIONCONTEXT,
  IFCGEOMETRICREPRESENTATIONITEM,
  IFCGEOMETRICREPRESENTATIONSUBCONTEXT,
  IFCGEOMETRICSET,
  IFCGRID,
  IFCGRIDAXIS,
  IFCGRIDPLACEMENT,
  IFCGROUP,
  IFCHALFSPACESOLID,
  IFCHEATEXCHANGER,
  IFCHEATEXCHANGERTYPE,
  IFCHUMIDIFIER,
  IFCHUMIDIFIERTYPE,
  IFCIMAGETEXTURE,
  IFCINDEXEDCOLOURMAP,
  IFCINDEXEDPOLYCURVE,
  IFCINDEXEDPOLYGONALFACE,
  IFCINDEXEDPOLYGONALFACEWITHVOIDS,
  IFCINDEXEDTEXTUREMAP,
  IFCINDEXEDTRIANGLETEXTUREMAP,
  IFCINTERCEPTOR,
  IFCINTERCEPTORTYPE,
  IFCINTERSECTIONCURVE,
  IFCINVENTORY,
  IFCIRREGULARTIMESERIES,
  IFCIRREGULARTIMESERIESVALUE,
  IFCISHAPEPROFILEDEF,
  IFCJUNCTIONBOX,
  IFCJUNCTIONBOXTYPE,
  IFCLABORRESOURCE,
  IFCLABORRESOURCETYPE,
  IFCLAGTIME,
  IFCLAMP,
  IFCLAMPTYPE,
  IFCLIBRARYINFORMATION,
  IFCLIBRARYREFERENCE,
  IFCLIGHTDISTRIBUTIONDATA,
  IFCLIGHTFIXTURE,
  IFCLIGHTFIXTURETYPE,
  IFCLIGHTINTENSITYDISTRIBUTION,
  IFCLIGHTSOURCE,
  IFCLIGHTSOURCEAMBIENT,
  IFCLIGHTSOURCEDIRECTIONAL,
  IFCLIGHTSOURCEGONIOMETRIC,
  IFCLIGHTSOURCEPOSITIONAL,
  IFCLIGHTSOURCESPOT,
  IFCLINE,
  IFCLINEARPLACEMENT,
  IFCLINEARPOSITIONINGELEMENT,
  IFCLINESEGMENT2D,
  IFCLOCALPLACEMENT,
  IFCLOOP,
  IFCLSHAPEPROFILEDEF,
  IFCMANIFOLDSOLIDBREP,
  IFCMAPCONVERSION,
  IFCMAPPEDITEM,
  IFCMATERIAL,
  IFCMATERIALCLASSIFICATIONRELATIONSHIP,
  IFCMATERIALCONSTITUENT,
  IFCMATERIALCONSTITUENTSET,
  IFCMATERIALDEFINITION,
  IFCMATERIALDEFINITIONREPRESENTATION,
  IFCMATERIALLAYER,
  IFCMATERIALLAYERSET,
  IFCMATERIALLAYERSETUSAGE,
  IFCMATERIALLAYERWITHOFFSETS,
  IFCMATERIALLIST,
  IFCMATERIALPROFILE,
  IFCMATERIALPROFILESET,
  IFCMATERIALPROFILESETUSAGE,
  IFCMATERIALPROFILESETUSAGETAPERING,
  IFCMATERIALPROFILEWITHOFFSETS,
  IFCMATERIALPROPERTIES,
  IFCMATERIALRELATIONSHIP,
  IFCMATERIALUSAGEDEFINITION,
  IFCMEASUREWITHUNIT,
  IFCMECHANICALFASTENER,
  IFCMECHANICALFASTENERTYPE,
  IFCMEDICALDEVICE,
  IFCMEDICALDEVICETYPE,
  IFCMEMBER,
  IFCMEMBERSTANDARDCASE,
  IFCMEMBERTYPE,
  IFCMETRIC,
  IFCMIRROREDPROFILEDEF,
  IFCMONETARYUNIT,
  IFCMOTORCONNECTION,
  IFCMOTORCONNECTIONTYPE,
  IFCNAMEDUNIT,
  IFCOBJECT,
  IFCOBJECTDEFINITION,
  IFCOBJECTIVE,
  IFCOBJECTPLACEMENT,
  IFCOCCUPANT,
  IFCOFFSETCURVE,
  IFCOFFSETCURVE2D,
  IFCOFFSETCURVE3D,
  IFCOFFSETCURVEBYDISTANCES,
  IFCOPENINGELEMENT,
  IFCOPENINGSTANDARDCASE,
  IFCOPENSHELL,
  IFCORGANIZATION,
  IFCORGANIZATIONRELATIONSHIP,
  IFCORIENTATIONEXPRESSION,
  IFCORIENTEDEDGE,
  IFCOUTERBOUNDARYCURVE,
  IFCOUTLET,
  IFCOUTLETTYPE,
  IFCOWNERHISTORY,
  IFCPARAMETERIZEDPROFILEDEF,
  IFCPATH,
  IFCPCURVE,
  IFCPERFORMANCEHISTORY,
  IFCPERMEABLECOVERINGPROPERTIES,
  IFCPERMIT,
  IFCPERSON,
  IFCPERSONANDORGANIZATION,
  IFCPHYSICALCOMPLEXQUANTITY,
  IFCPHYSICALQUANTITY,
  IFCPHYSICALSIMPLEQUANTITY,
  IFCPILE,
  IFCPILETYPE,
  IFCPIPEFITTING,
  IFCPIPEFITTINGTYPE,
  IFCPIPESEGMENT,
  IFCPIPESEGMENTTYPE,
  IFCPIXELTEXTURE,
  IFCPLACEMENT,
  IFCPLANARBOX,
  IFCPLANAREXTENT,
  IFCPLANE,
  IFCPLATE,
  IFCPLATESTANDARDCASE,
  IFCPLATETYPE,
  IFCPOINT,
  IFCPOINTONCURVE,
  IFCPOINTONSURFACE,
  IFCPOLYGONALBOUNDEDHALFSPACE,
  IFCPOLYGONALFACESET,
  IFCPOLYLINE,
  IFCPOLYLOOP,
  IFCPORT,
  IFCPOSITIONINGELEMENT,
  IFCPOSTALADDRESS,
  IFCPREDEFINEDCOLOUR,
  IFCPREDEFINEDCURVEFONT,
  IFCPREDEFINEDITEM,
  IFCPREDEFINEDPROPERTIES,
  IFCPREDEFINEDPROPERTYSET,
  IFCPREDEFINEDTEXTFONT,
  IFCPRESENTATIONITEM,
  IFCPRESENTATIONLAYERASSIGNMENT,
  IFCPRESENTATIONLAYERWITHSTYLE,
  IFCPRESENTATIONSTYLE,
  IFCPRESENTATIONSTYLEASSIGNMENT,
  IFCPROCEDURE,
  IFCPROCEDURETYPE,
  IFCPROCESS,
  IFCPRODUCT,
  IFCPRODUCTDEFINITIONSHAPE,
  IFCPRODUCTREPRESENTATION,
  IFCPROFILEDEF,
  IFCPROFILEPROPERTIES,
  IFCPROJECT,
  IFCPROJECTEDCRS,
  IFCPROJECTIONELEMENT,
  IFCPROJECTLIBRARY,
  IFCPROJECTORDER,
  IFCPROPERTY,
  IFCPROPERTYABSTRACTION,
  IFCPROPERTYBOUNDEDVALUE,
  IFCPROPERTYDEFINITION,
  IFCPROPERTYDEPENDENCYRELATIONSHIP,
  IFCPROPERTYENUMERATEDVALUE,
  IFCPROPERTYENUMERATION,
  IFCPROPERTYLISTVALUE,
  IFCPROPERTYREFERENCEVALUE,
  IFCPROPERTYSET,
  IFCPROPERTYSETDEFINITION,
  IFCPROPERTYSETTEMPLATE,
  IFCPROPERTYSINGLEVALUE,
  IFCPROPERTYTABLEVALUE,
  IFCPROPERTYTEMPLATE,
  IFCPROPERTYTEMPLATEDEFINITION,
  IFCPROTECTIVEDEVICE,
  IFCPROTECTIVEDEVICETRIPPINGUNIT,
  IFCPROTECTIVEDEVICETRIPPINGUNITTYPE,
  IFCPROTECTIVEDEVICETYPE,
  IFCPROXY,
  IFCPUMP,
  IFCPUMPTYPE,
  IFCQUANTITYAREA,
  IFCQUANTITYCOUNT,
  IFCQUANTITYLENGTH,
  IFCQUANTITYSET,
  IFCQUANTITYTIME,
  IFCQUANTITYVOLUME,
  IFCQUANTITYWEIGHT,
  IFCRAILING,
  IFCRAILINGTYPE,
  IFCRAMP,
  IFCRAMPFLIGHT,
  IFCRAMPFLIGHTTYPE,
  IFCRAMPTYPE,
  IFCRATIONALBSPLINECURVEWITHKNOTS,
  IFCRATIONALBSPLINESURFACEWITHKNOTS,
  IFCRECTANGLEHOLLOWPROFILEDEF,
  IFCRECTANGLEPROFILEDEF,
  IFCRECTANGULARPYRAMID,
  IFCRECTANGULARTRIMMEDSURFACE,
  IFCRECURRENCEPATTERN,
  IFCREFERENCE,
  IFCREFERENT,
  IFCREGULARTIMESERIES,
  IFCREINFORCEMENTBARPROPERTIES,
  IFCREINFORCEMENTDEFINITIONPROPERTIES,
  IFCREINFORCINGBAR,
  IFCREINFORCINGBARTYPE,
  IFCREINFORCINGELEMENT,
  IFCREINFORCINGELEMENTTYPE,
  IFCREINFORCINGMESH,
  IFCREINFORCINGMESHTYPE,
  IFCRELAGGREGATES,
  IFCRELASSIGNS,
  IFCRELASSIGNSTOACTOR,
  IFCRELASSIGNSTOCONTROL,
  IFCRELASSIGNSTOGROUP,
  IFCRELASSIGNSTOGROUPBYFACTOR,
  IFCRELASSIGNSTOPROCESS,
  IFCRELASSIGNSTOPRODUCT,
  IFCRELASSIGNSTORESOURCE,
  IFCRELASSOCIATES,
  IFCRELASSOCIATESAPPROVAL,
  IFCRELASSOCIATESCLASSIFICATION,
  IFCRELASSOCIATESCONSTRAINT,
  IFCRELASSOCIATESDOCUMENT,
  IFCRELASSOCIATESLIBRARY,
  IFCRELASSOCIATESMATERIAL,
  IFCRELATIONSHIP,
  IFCRELCONNECTS,
  IFCRELCONNECTSELEMENTS,
  IFCRELCONNECTSPATHELEMENTS,
  IFCRELCONNECTSPORTS,
  IFCRELCONNECTSPORTTOELEMENT,
  IFCRELCONNECTSSTRUCTURALACTIVITY,
  IFCRELCONNECTSSTRUCTURALMEMBER,
  IFCRELCONNECTSWITHECCENTRICITY,
  IFCRELCONNECTSWITHREALIZINGELEMENTS,
  IFCRELCONTAINEDINSPATIALSTRUCTURE,
  IFCRELCOVERSBLDGELEMENTS,
  IFCRELCOVERSSPACES,
  IFCRELDECLARES,
  IFCRELDECOMPOSES,
  IFCRELDEFINES,
  IFCRELDEFINESBYOBJECT,
  IFCRELDEFINESBYPROPERTIES,
  IFCRELDEFINESBYTEMPLATE,
  IFCRELDEFINESBYTYPE,
  IFCRELFILLSELEMENT,
  IFCRELFLOWCONTROLELEMENTS,
  IFCRELINTERFERESELEMENTS,
  IFCRELNESTS,
  IFCRELPOSITIONS,
  IFCRELPROJECTSELEMENT,
  IFCRELREFERENCEDINSPATIALSTRUCTURE,
  IFCRELSEQUENCE,
  IFCRELSERVICESBUILDINGS,
  IFCRELSPACEBOUNDARY,
  IFCRELSPACEBOUNDARY1STLEVEL,
  IFCRELSPACEBOUNDARY2NDLEVEL,
  IFCRELVOIDSELEMENT,
  IFCREPARAMETRISEDCOMPOSITECURVESEGMENT,
  IFCREPRESENTATION,
  IFCREPRESENTATIONCONTEXT,
  IFCREPRESENTATIONITEM,
  IFCREPRESENTATIONMAP,
  IFCRESOURCE,
  IFCRESOURCEAPPROVALRELATIONSHIP,
  IFCRESOURCECONSTRAINTRELATIONSHIP,
  IFCRESOURCELEVELRELATIONSHIP,
  IFCRESOURCETIME,
  IFCREVOLVEDAREASOLID,
  IFCREVOLVEDAREASOLIDTAPERED,
  IFCRIGHTCIRCULARCONE,
  IFCRIGHTCIRCULARCYLINDER,
  IFCROOF,
  IFCROOFTYPE,
  IFCROOT,
  IFCROUNDEDRECTANGLEPROFILEDEF,
  IFCSANITARYTERMINAL,
  IFCSANITARYTERMINALTYPE,
  IFCSCHEDULINGTIME,
  IFCSEAMCURVE,
  IFCSECTIONEDSOLID,
  IFCSECTIONEDSOLIDHORIZONTAL,
  IFCSECTIONEDSPINE,
  IFCSECTIONPROPERTIES,
  IFCSECTIONREINFORCEMENTPROPERTIES,
  IFCSENSOR,
  IFCSENSORTYPE,
  IFCSHADINGDEVICE,
  IFCSHADINGDEVICETYPE,
  IFCSHAPEASPECT,
  IFCSHAPEMODEL,
  IFCSHAPEREPRESENTATION,
  IFCSHELLBASEDSURFACEMODEL,
  IFCSIMPLEPROPERTY,
  IFCSIMPLEPROPERTYTEMPLATE,
  IFCSITE,
  IFCSIUNIT,
  IFCSLAB,
  IFCSLABELEMENTEDCASE,
  IFCSLABSTANDARDCASE,
  IFCSLABTYPE,
  IFCSLIPPAGECONNECTIONCONDITION,
  IFCSOLARDEVICE,
  IFCSOLARDEVICETYPE,
  IFCSOLIDMODEL,
  IFCSPACE,
  IFCSPACEHEATER,
  IFCSPACEHEATERTYPE,
  IFCSPACETYPE,
  IFCSPATIALELEMENT,
  IFCSPATIALELEMENTTYPE,
  IFCSPATIALSTRUCTUREELEMENT,
  IFCSPATIALSTRUCTUREELEMENTTYPE,
  IFCSPATIALZONE,
  IFCSPATIALZONETYPE,
  IFCSPHERE,
  IFCSPHERICALSURFACE,
  IFCSTACKTERMINAL,
  IFCSTACKTERMINALTYPE,
  IFCSTAIR,
  IFCSTAIRFLIGHT,
  IFCSTAIRFLIGHTTYPE,
  IFCSTAIRTYPE,
  IFCSTRUCTURALACTION,
  IFCSTRUCTURALACTIVITY,
  IFCSTRUCTURALANALYSISMODEL,
  IFCSTRUCTURALCONNECTION,
  IFCSTRUCTURALCONNECTIONCONDITION,
  IFCSTRUCTURALCURVEACTION,
  IFCSTRUCTURALCURVECONNECTION,
  IFCSTRUCTURALCURVEMEMBER,
  IFCSTRUCTURALCURVEMEMBERVARYING,
  IFCSTRUCTURALCURVEREACTION,
  IFCSTRUCTURALITEM,
  IFCSTRUCTURALLINEARACTION,
  IFCSTRUCTURALLOAD,
  IFCSTRUCTURALLOADCASE,
  IFCSTRUCTURALLOADCONFIGURATION,
  IFCSTRUCTURALLOADGROUP,
  IFCSTRUCTURALLOADLINEARFORCE,
  IFCSTRUCTURALLOADORRESULT,
  IFCSTRUCTURALLOADPLANARFORCE,
  IFCSTRUCTURALLOADSINGLEDISPLACEMENT,
  IFCSTRUCTURALLOADSINGLEDISPLACEMENTDISTORTION,
  IFCSTRUCTURALLOADSINGLEFORCE,
  IFCSTRUCTURALLOADSINGLEFORCEWARPING,
  IFCSTRUCTURALLOADSTATIC,
  IFCSTRUCTURALLOADTEMPERATURE,
  IFCSTRUCTURALMEMBER,
  IFCSTRUCTURALPLANARACTION,
  IFCSTRUCTURALPOINTACTION,
  IFCSTRUCTURALPOINTCONNECTION,
  IFCSTRUCTURALPOINTREACTION,
  IFCSTRUCTURALREACTION,
  IFCSTRUCTURALRESULTGROUP,
  IFCSTRUCTURALSURFACEACTION,
  IFCSTRUCTURALSURFACECONNECTION,
  IFCSTRUCTURALSURFACEMEMBER,
  IFCSTRUCTURALSURFACEMEMBERVARYING,
  IFCSTRUCTURALSURFACEREACTION,
  IFCSTYLEDITEM,
  IFCSTYLEDREPRESENTATION,
  IFCSTYLEMODEL,
  IFCSUBCONTRACTRESOURCE,
  IFCSUBCONTRACTRESOURCETYPE,
  IFCSUBEDGE,
  IFCSURFACE,
  IFCSURFACECURVE,
  IFCSURFACECURVESWEPTAREASOLID,
  IFCSURFACEFEATURE,
  IFCSURFACEOFLINEAREXTRUSION,
  IFCSURFACEOFREVOLUTION,
  IFCSURFACEREINFORCEMENTAREA,
  IFCSURFACESTYLE,
  IFCSURFACESTYLELIGHTING,
  IFCSURFACESTYLEREFRACTION,
  IFCSURFACESTYLERENDERING,
  IFCSURFACESTYLESHADING,
  IFCSURFACESTYLEWITHTEXTURES,
  IFCSURFACETEXTURE,
  IFCSWEPTAREASOLID,
  IFCSWEPTDISKSOLID,
  IFCSWEPTDISKSOLIDPOLYGONAL,
  IFCSWEPTSURFACE,
  IFCSWITCHINGDEVICE,
  IFCSWITCHINGDEVICETYPE,
  IFCSYSTEM,
  IFCSYSTEMFURNITUREELEMENT,
  IFCSYSTEMFURNITUREELEMENTTYPE,
  IFCTABLE,
  IFCTABLECOLUMN,
  IFCTABLEROW,
  IFCTANK,
  IFCTANKTYPE,
  IFCTASK,
  IFCTASKTIME,
  IFCTASKTIMERECURRING,
  IFCTASKTYPE,
  IFCTELECOMADDRESS,
  IFCTENDON,
  IFCTENDONANCHOR,
  IFCTENDONANCHORTYPE,
  IFCTENDONCONDUIT,
  IFCTENDONCONDUITTYPE,
  IFCTENDONTYPE,
  IFCTESSELLATEDFACESET,
  IFCTESSELLATEDITEM,
  IFCTEXTLITERAL,
  IFCTEXTLITERALWITHEXTENT,
  IFCTEXTSTYLE,
  IFCTEXTSTYLEFONTMODEL,
  IFCTEXTSTYLEFORDEFINEDFONT,
  IFCTEXTSTYLETEXTMODEL,
  IFCTEXTURECOORDINATE,
  IFCTEXTURECOORDINATEGENERATOR,
  IFCTEXTUREMAP,
  IFCTEXTUREVERTEX,
  IFCTEXTUREVERTEXLIST,
  IFCTIMEPERIOD,
  IFCTIMESERIES,
  IFCTIMESERIESVALUE,
  IFCTOPOLOGICALREPRESENTATIONITEM,
  IFCTOPOLOGYREPRESENTATION,
  IFCTOROIDALSURFACE,
  IFCTRANSFORMER,
  IFCTRANSFORMERTYPE,
  IFCTRANSITIONCURVESEGMENT2D,
  IFCTRANSPORTELEMENT,
  IFCTRANSPORTELEMENTTYPE,
  IFCTRAPEZIUMPROFILEDEF,
  IFCTRIANGULATEDFACESET,
  IFCTRIANGULATEDIRREGULARNETWORK,
  IFCTRIMMEDCURVE,
  IFCTSHAPEPROFILEDEF,
  IFCTUBEBUNDLE,
  IFCTUBEBUNDLETYPE,
  IFCTYPEOBJECT,
  IFCTYPEPROCESS,
  IFCTYPEPRODUCT,
  IFCTYPERESOURCE,
  IFCUNITARYCONTROLELEMENT,
  IFCUNITARYCONTROLELEMENTTYPE,
  IFCUNITARYEQUIPMENT,
  IFCUNITARYEQUIPMENTTYPE,
  IFCUNITASSIGNMENT,
  IFCUSHAPEPROFILEDEF,
  IFCVALVE,
  IFCVALVETYPE,
  IFCVECTOR,
  IFCVERTEX,
  IFCVERTEXLOOP,
  IFCVERTEXPOINT,
  IFCVIBRATIONDAMPER,
  IFCVIBRATIONDAMPERTYPE,
  IFCVIBRATIONISOLATOR,
  IFCVIBRATIONISOLATORTYPE,
  IFCVIRTUALELEMENT,
  IFCVIRTUALGRIDINTERSECTION,
  IFCVOIDINGFEATURE,
  IFCWALL,
  IFCWALLELEMENTEDCASE,
  IFCWALLSTANDARDCASE,
  IFCWALLTYPE,
  IFCWASTETERMINAL,
  IFCWASTETERMINALTYPE,
  IFCWINDOW,
  IFCWINDOWLININGPROPERTIES,
  IFCWINDOWPANELPROPERTIES,
  IFCWINDOWSTANDARDCASE,
  IFCWINDOWSTYLE,
  IFCWINDOWTYPE,
  IFCWORKCALENDAR,
  IFCWORKCONTROL,
  IFCWORKPLAN,
  IFCWORKSCHEDULE,
  IFCWORKTIME,
  IFCZONE,
  IFCZSHAPEPROFILEDEF,
  IfcAPI,
  IfcAbsorbedDoseMeasure,
  IfcAccelerationMeasure,
  IfcActionRequest,
  IfcActionRequestTypeEnum,
  IfcActionSourceTypeEnum,
  IfcActionTypeEnum,
  IfcActor,
  IfcActorRole,
  IfcActuator,
  IfcActuatorType,
  IfcActuatorTypeEnum,
  IfcAddress,
  IfcAddressTypeEnum,
  IfcAdvancedBrep,
  IfcAdvancedBrepWithVoids,
  IfcAdvancedFace,
  IfcAirTerminal,
  IfcAirTerminalBox,
  IfcAirTerminalBoxType,
  IfcAirTerminalBoxTypeEnum,
  IfcAirTerminalType,
  IfcAirTerminalTypeEnum,
  IfcAirToAirHeatRecovery,
  IfcAirToAirHeatRecoveryType,
  IfcAirToAirHeatRecoveryTypeEnum,
  IfcAlarm,
  IfcAlarmType,
  IfcAlarmTypeEnum,
  IfcAlignment,
  IfcAlignment2DHorizontal,
  IfcAlignment2DHorizontalSegment,
  IfcAlignment2DSegment,
  IfcAlignment2DVerSegCircularArc,
  IfcAlignment2DVerSegLine,
  IfcAlignment2DVerSegParabolicArc,
  IfcAlignment2DVertical,
  IfcAlignment2DVerticalSegment,
  IfcAlignmentCurve,
  IfcAlignmentTypeEnum,
  IfcAmountOfSubstanceMeasure,
  IfcAnalysisModelTypeEnum,
  IfcAnalysisTheoryTypeEnum,
  IfcAngularVelocityMeasure,
  IfcAnnotation,
  IfcAnnotationFillArea,
  IfcApplication,
  IfcAppliedValue,
  IfcApproval,
  IfcApprovalRelationship,
  IfcArbitraryClosedProfileDef,
  IfcArbitraryOpenProfileDef,
  IfcArbitraryProfileDefWithVoids,
  IfcAreaDensityMeasure,
  IfcAreaMeasure,
  IfcArithmeticOperatorEnum,
  IfcAssemblyPlaceEnum,
  IfcAsset,
  IfcAsymmetricIShapeProfileDef,
  IfcAudioVisualAppliance,
  IfcAudioVisualApplianceType,
  IfcAudioVisualApplianceTypeEnum,
  IfcAxis1Placement,
  IfcAxis2Placement2D,
  IfcAxis2Placement3D,
  IfcBSplineCurve,
  IfcBSplineCurveForm,
  IfcBSplineCurveWithKnots,
  IfcBSplineSurface,
  IfcBSplineSurfaceForm,
  IfcBSplineSurfaceWithKnots,
  IfcBeam,
  IfcBeamStandardCase,
  IfcBeamType,
  IfcBeamTypeEnum,
  IfcBearing,
  IfcBearingType,
  IfcBearingTypeDisplacementEnum,
  IfcBearingTypeEnum,
  IfcBenchmarkEnum,
  IfcBinary,
  IfcBlobTexture,
  IfcBlock,
  IfcBoiler,
  IfcBoilerType,
  IfcBoilerTypeEnum,
  IfcBoolean,
  IfcBooleanClippingResult,
  IfcBooleanOperator,
  IfcBooleanResult,
  IfcBoundaryCondition,
  IfcBoundaryCurve,
  IfcBoundaryEdgeCondition,
  IfcBoundaryFaceCondition,
  IfcBoundaryNodeCondition,
  IfcBoundaryNodeConditionWarping,
  IfcBoundedCurve,
  IfcBoundedSurface,
  IfcBoundingBox,
  IfcBoxAlignment,
  IfcBoxedHalfSpace,
  IfcBridge,
  IfcBridgePart,
  IfcBridgePartTypeEnum,
  IfcBridgeTypeEnum,
  IfcBuilding,
  IfcBuildingElement,
  IfcBuildingElementPart,
  IfcBuildingElementPartType,
  IfcBuildingElementPartTypeEnum,
  IfcBuildingElementProxy,
  IfcBuildingElementProxyType,
  IfcBuildingElementProxyTypeEnum,
  IfcBuildingElementType,
  IfcBuildingStorey,
  IfcBuildingSystem,
  IfcBuildingSystemTypeEnum,
  IfcBurner,
  IfcBurnerType,
  IfcBurnerTypeEnum,
  IfcCShapeProfileDef,
  IfcCableCarrierFitting,
  IfcCableCarrierFittingType,
  IfcCableCarrierFittingTypeEnum,
  IfcCableCarrierSegment,
  IfcCableCarrierSegmentType,
  IfcCableCarrierSegmentTypeEnum,
  IfcCableFitting,
  IfcCableFittingType,
  IfcCableFittingTypeEnum,
  IfcCableSegment,
  IfcCableSegmentType,
  IfcCableSegmentTypeEnum,
  IfcCaissonFoundation,
  IfcCaissonFoundationType,
  IfcCaissonFoundationTypeEnum,
  IfcCardinalPointReference,
  IfcCartesianPoint,
  IfcCartesianPointList,
  IfcCartesianPointList2D,
  IfcCartesianPointList3D,
  IfcCartesianTransformationOperator,
  IfcCartesianTransformationOperator2D,
  IfcCartesianTransformationOperator2DnonUniform,
  IfcCartesianTransformationOperator3D,
  IfcCartesianTransformationOperator3DnonUniform,
  IfcCenterLineProfileDef,
  IfcChangeActionEnum,
  IfcChiller,
  IfcChillerType,
  IfcChillerTypeEnum,
  IfcChimney,
  IfcChimneyType,
  IfcChimneyTypeEnum,
  IfcCircle,
  IfcCircleHollowProfileDef,
  IfcCircleProfileDef,
  IfcCircularArcSegment2D,
  IfcCivilElement,
  IfcCivilElementType,
  IfcClassification,
  IfcClassificationReference,
  IfcClosedShell,
  IfcCoil,
  IfcCoilType,
  IfcCoilTypeEnum,
  IfcColourRgb,
  IfcColourRgbList,
  IfcColourSpecification,
  IfcColumn,
  IfcColumnStandardCase,
  IfcColumnType,
  IfcColumnTypeEnum,
  IfcCommunicationsAppliance,
  IfcCommunicationsApplianceType,
  IfcCommunicationsApplianceTypeEnum,
  IfcComplexProperty,
  IfcComplexPropertyTemplate,
  IfcComplexPropertyTemplateTypeEnum,
  IfcCompositeCurve,
  IfcCompositeCurveOnSurface,
  IfcCompositeCurveSegment,
  IfcCompositeProfileDef,
  IfcCompressor,
  IfcCompressorType,
  IfcCompressorTypeEnum,
  IfcCondenser,
  IfcCondenserType,
  IfcCondenserTypeEnum,
  IfcConic,
  IfcConnectedFaceSet,
  IfcConnectionCurveGeometry,
  IfcConnectionGeometry,
  IfcConnectionPointEccentricity,
  IfcConnectionPointGeometry,
  IfcConnectionSurfaceGeometry,
  IfcConnectionTypeEnum,
  IfcConnectionVolumeGeometry,
  IfcConstraint,
  IfcConstraintEnum,
  IfcConstructionEquipmentResource,
  IfcConstructionEquipmentResourceType,
  IfcConstructionEquipmentResourceTypeEnum,
  IfcConstructionMaterialResource,
  IfcConstructionMaterialResourceType,
  IfcConstructionMaterialResourceTypeEnum,
  IfcConstructionProductResource,
  IfcConstructionProductResourceType,
  IfcConstructionProductResourceTypeEnum,
  IfcConstructionResource,
  IfcConstructionResourceType,
  IfcContext,
  IfcContextDependentMeasure,
  IfcContextDependentUnit,
  IfcControl,
  IfcController,
  IfcControllerType,
  IfcControllerTypeEnum,
  IfcConversionBasedUnit,
  IfcConversionBasedUnitWithOffset,
  IfcCooledBeam,
  IfcCooledBeamType,
  IfcCooledBeamTypeEnum,
  IfcCoolingTower,
  IfcCoolingTowerType,
  IfcCoolingTowerTypeEnum,
  IfcCoordinateOperation,
  IfcCoordinateReferenceSystem,
  IfcCostItem,
  IfcCostItemTypeEnum,
  IfcCostSchedule,
  IfcCostScheduleTypeEnum,
  IfcCostValue,
  IfcCountMeasure,
  IfcCovering,
  IfcCoveringType,
  IfcCoveringTypeEnum,
  IfcCrewResource,
  IfcCrewResourceType,
  IfcCrewResourceTypeEnum,
  IfcCsgPrimitive3D,
  IfcCsgSolid,
  IfcCurrencyRelationship,
  IfcCurtainWall,
  IfcCurtainWallType,
  IfcCurtainWallTypeEnum,
  IfcCurvatureMeasure,
  IfcCurve,
  IfcCurveBoundedPlane,
  IfcCurveBoundedSurface,
  IfcCurveInterpolationEnum,
  IfcCurveSegment2D,
  IfcCurveStyle,
  IfcCurveStyleFont,
  IfcCurveStyleFontAndScaling,
  IfcCurveStyleFontPattern,
  IfcCylindricalSurface,
  IfcDamper,
  IfcDamperType,
  IfcDamperTypeEnum,
  IfcDataOriginEnum,
  IfcDate,
  IfcDateTime,
  IfcDayInMonthNumber,
  IfcDayInWeekNumber,
  IfcDeepFoundation,
  IfcDeepFoundationType,
  IfcDerivedProfileDef,
  IfcDerivedUnit,
  IfcDerivedUnitElement,
  IfcDerivedUnitEnum,
  IfcDescriptiveMeasure,
  IfcDimensionCount,
  IfcDimensionalExponents,
  IfcDirection,
  IfcDirectionSenseEnum,
  IfcDiscreteAccessory,
  IfcDiscreteAccessoryType,
  IfcDiscreteAccessoryTypeEnum,
  IfcDistanceExpression,
  IfcDistributionChamberElement,
  IfcDistributionChamberElementType,
  IfcDistributionChamberElementTypeEnum,
  IfcDistributionCircuit,
  IfcDistributionControlElement,
  IfcDistributionControlElementType,
  IfcDistributionElement,
  IfcDistributionElementType,
  IfcDistributionFlowElement,
  IfcDistributionFlowElementType,
  IfcDistributionPort,
  IfcDistributionPortTypeEnum,
  IfcDistributionSystem,
  IfcDistributionSystemEnum,
  IfcDocumentConfidentialityEnum,
  IfcDocumentInformation,
  IfcDocumentInformationRelationship,
  IfcDocumentReference,
  IfcDocumentStatusEnum,
  IfcDoor,
  IfcDoorLiningProperties,
  IfcDoorPanelOperationEnum,
  IfcDoorPanelPositionEnum,
  IfcDoorPanelProperties,
  IfcDoorStandardCase,
  IfcDoorStyle,
  IfcDoorStyleConstructionEnum,
  IfcDoorStyleOperationEnum,
  IfcDoorType,
  IfcDoorTypeEnum,
  IfcDoorTypeOperationEnum,
  IfcDoseEquivalentMeasure,
  IfcDraughtingPreDefinedColour,
  IfcDraughtingPreDefinedCurveFont,
  IfcDuctFitting,
  IfcDuctFittingType,
  IfcDuctFittingTypeEnum,
  IfcDuctSegment,
  IfcDuctSegmentType,
  IfcDuctSegmentTypeEnum,
  IfcDuctSilencer,
  IfcDuctSilencerType,
  IfcDuctSilencerTypeEnum,
  IfcDuration,
  IfcDynamicViscosityMeasure,
  IfcEdge,
  IfcEdgeCurve,
  IfcEdgeLoop,
  IfcElectricAppliance,
  IfcElectricApplianceType,
  IfcElectricApplianceTypeEnum,
  IfcElectricCapacitanceMeasure,
  IfcElectricChargeMeasure,
  IfcElectricConductanceMeasure,
  IfcElectricCurrentMeasure,
  IfcElectricDistributionBoard,
  IfcElectricDistributionBoardType,
  IfcElectricDistributionBoardTypeEnum,
  IfcElectricFlowStorageDevice,
  IfcElectricFlowStorageDeviceType,
  IfcElectricFlowStorageDeviceTypeEnum,
  IfcElectricGenerator,
  IfcElectricGeneratorType,
  IfcElectricGeneratorTypeEnum,
  IfcElectricMotor,
  IfcElectricMotorType,
  IfcElectricMotorTypeEnum,
  IfcElectricResistanceMeasure,
  IfcElectricTimeControl,
  IfcElectricTimeControlType,
  IfcElectricTimeControlTypeEnum,
  IfcElectricVoltageMeasure,
  IfcElement,
  IfcElementAssembly,
  IfcElementAssemblyType,
  IfcElementAssemblyTypeEnum,
  IfcElementComponent,
  IfcElementComponentType,
  IfcElementCompositionEnum,
  IfcElementQuantity,
  IfcElementType,
  IfcElementarySurface,
  IfcElements,
  IfcEllipse,
  IfcEllipseProfileDef,
  IfcEnergyConversionDevice,
  IfcEnergyConversionDeviceType,
  IfcEnergyMeasure,
  IfcEngine,
  IfcEngineType,
  IfcEngineTypeEnum,
  IfcEvaporativeCooler,
  IfcEvaporativeCoolerType,
  IfcEvaporativeCoolerTypeEnum,
  IfcEvaporator,
  IfcEvaporatorType,
  IfcEvaporatorTypeEnum,
  IfcEvent,
  IfcEventTime,
  IfcEventTriggerTypeEnum,
  IfcEventType,
  IfcEventTypeEnum,
  IfcExtendedProperties,
  IfcExternalInformation,
  IfcExternalReference,
  IfcExternalReferenceRelationship,
  IfcExternalSpatialElement,
  IfcExternalSpatialElementTypeEnum,
  IfcExternalSpatialStructureElement,
  IfcExternallyDefinedHatchStyle,
  IfcExternallyDefinedSurfaceStyle,
  IfcExternallyDefinedTextFont,
  IfcExtrudedAreaSolid,
  IfcExtrudedAreaSolidTapered,
  IfcFace,
  IfcFaceBasedSurfaceModel,
  IfcFaceBound,
  IfcFaceOuterBound,
  IfcFaceSurface,
  IfcFacetedBrep,
  IfcFacetedBrepWithVoids,
  IfcFacility,
  IfcFacilityPart,
  IfcFailureConnectionCondition,
  IfcFan,
  IfcFanType,
  IfcFanTypeEnum,
  IfcFastener,
  IfcFastenerType,
  IfcFastenerTypeEnum,
  IfcFeatureElement,
  IfcFeatureElementAddition,
  IfcFeatureElementSubtraction,
  IfcFillAreaStyle,
  IfcFillAreaStyleHatching,
  IfcFillAreaStyleTiles,
  IfcFilter,
  IfcFilterType,
  IfcFilterTypeEnum,
  IfcFireSuppressionTerminal,
  IfcFireSuppressionTerminalType,
  IfcFireSuppressionTerminalTypeEnum,
  IfcFixedReferenceSweptAreaSolid,
  IfcFlowController,
  IfcFlowControllerType,
  IfcFlowDirectionEnum,
  IfcFlowFitting,
  IfcFlowFittingType,
  IfcFlowInstrument,
  IfcFlowInstrumentType,
  IfcFlowInstrumentTypeEnum,
  IfcFlowMeter,
  IfcFlowMeterType,
  IfcFlowMeterTypeEnum,
  IfcFlowMovingDevice,
  IfcFlowMovingDeviceType,
  IfcFlowSegment,
  IfcFlowSegmentType,
  IfcFlowStorageDevice,
  IfcFlowStorageDeviceType,
  IfcFlowTerminal,
  IfcFlowTerminalType,
  IfcFlowTreatmentDevice,
  IfcFlowTreatmentDeviceType,
  IfcFontStyle,
  IfcFontVariant,
  IfcFontWeight,
  IfcFooting,
  IfcFootingType,
  IfcFootingTypeEnum,
  IfcForceMeasure,
  IfcFrequencyMeasure,
  IfcFurnishingElement,
  IfcFurnishingElementType,
  IfcFurniture,
  IfcFurnitureType,
  IfcFurnitureTypeEnum,
  IfcGeographicElement,
  IfcGeographicElementType,
  IfcGeographicElementTypeEnum,
  IfcGeometricCurveSet,
  IfcGeometricProjectionEnum,
  IfcGeometricRepresentationContext,
  IfcGeometricRepresentationItem,
  IfcGeometricRepresentationSubContext,
  IfcGeometricSet,
  IfcGlobalOrLocalEnum,
  IfcGloballyUniqueId,
  IfcGrid,
  IfcGridAxis,
  IfcGridPlacement,
  IfcGridTypeEnum,
  IfcGroup,
  IfcHalfSpaceSolid,
  IfcHeatExchanger,
  IfcHeatExchangerType,
  IfcHeatExchangerTypeEnum,
  IfcHeatFluxDensityMeasure,
  IfcHeatingValueMeasure,
  IfcHumidifier,
  IfcHumidifierType,
  IfcHumidifierTypeEnum,
  IfcIShapeProfileDef,
  IfcIdentifier,
  IfcIlluminanceMeasure,
  IfcImageTexture,
  IfcIndexedColourMap,
  IfcIndexedPolyCurve,
  IfcIndexedPolygonalFace,
  IfcIndexedPolygonalFaceWithVoids,
  IfcIndexedTextureMap,
  IfcIndexedTriangleTextureMap,
  IfcInductanceMeasure,
  IfcInteger,
  IfcIntegerCountRateMeasure,
  IfcInterceptor,
  IfcInterceptorType,
  IfcInterceptorTypeEnum,
  IfcInternalOrExternalEnum,
  IfcIntersectionCurve,
  IfcInventory,
  IfcInventoryTypeEnum,
  IfcIonConcentrationMeasure,
  IfcIrregularTimeSeries,
  IfcIrregularTimeSeriesValue,
  IfcIsothermalMoistureCapacityMeasure,
  IfcJunctionBox,
  IfcJunctionBoxType,
  IfcJunctionBoxTypeEnum,
  IfcKinematicViscosityMeasure,
  IfcKnotType,
  IfcLShapeProfileDef,
  IfcLabel,
  IfcLaborResource,
  IfcLaborResourceType,
  IfcLaborResourceTypeEnum,
  IfcLagTime,
  IfcLamp,
  IfcLampType,
  IfcLampTypeEnum,
  IfcLanguageId,
  IfcLayerSetDirectionEnum,
  IfcLengthMeasure,
  IfcLibraryInformation,
  IfcLibraryReference,
  IfcLightDistributionCurveEnum,
  IfcLightDistributionData,
  IfcLightEmissionSourceEnum,
  IfcLightFixture,
  IfcLightFixtureType,
  IfcLightFixtureTypeEnum,
  IfcLightIntensityDistribution,
  IfcLightSource,
  IfcLightSourceAmbient,
  IfcLightSourceDirectional,
  IfcLightSourceGoniometric,
  IfcLightSourcePositional,
  IfcLightSourceSpot,
  IfcLine,
  IfcLineSegment2D,
  IfcLinearForceMeasure,
  IfcLinearMomentMeasure,
  IfcLinearPlacement,
  IfcLinearPositioningElement,
  IfcLinearStiffnessMeasure,
  IfcLinearVelocityMeasure,
  IfcLoadGroupTypeEnum,
  IfcLocalPlacement,
  IfcLogical,
  IfcLogicalOperatorEnum,
  IfcLoop,
  IfcLuminousFluxMeasure,
  IfcLuminousIntensityDistributionMeasure,
  IfcLuminousIntensityMeasure,
  IfcMagneticFluxDensityMeasure,
  IfcMagneticFluxMeasure,
  IfcManifoldSolidBrep,
  IfcMapConversion,
  IfcMappedItem,
  IfcMassDensityMeasure,
  IfcMassFlowRateMeasure,
  IfcMassMeasure,
  IfcMassPerLengthMeasure,
  IfcMaterial,
  IfcMaterialClassificationRelationship,
  IfcMaterialConstituent,
  IfcMaterialConstituentSet,
  IfcMaterialDefinition,
  IfcMaterialDefinitionRepresentation,
  IfcMaterialLayer,
  IfcMaterialLayerSet,
  IfcMaterialLayerSetUsage,
  IfcMaterialLayerWithOffsets,
  IfcMaterialList,
  IfcMaterialProfile,
  IfcMaterialProfileSet,
  IfcMaterialProfileSetUsage,
  IfcMaterialProfileSetUsageTapering,
  IfcMaterialProfileWithOffsets,
  IfcMaterialProperties,
  IfcMaterialRelationship,
  IfcMaterialUsageDefinition,
  IfcMeasureWithUnit,
  IfcMechanicalFastener,
  IfcMechanicalFastenerType,
  IfcMechanicalFastenerTypeEnum,
  IfcMedicalDevice,
  IfcMedicalDeviceType,
  IfcMedicalDeviceTypeEnum,
  IfcMember,
  IfcMemberStandardCase,
  IfcMemberType,
  IfcMemberTypeEnum,
  IfcMetric,
  IfcMirroredProfileDef,
  IfcModulusOfElasticityMeasure,
  IfcModulusOfLinearSubgradeReactionMeasure,
  IfcModulusOfRotationalSubgradeReactionMeasure,
  IfcModulusOfSubgradeReactionMeasure,
  IfcMoistureDiffusivityMeasure,
  IfcMolecularWeightMeasure,
  IfcMomentOfInertiaMeasure,
  IfcMonetaryMeasure,
  IfcMonetaryUnit,
  IfcMonthInYearNumber,
  IfcMotorConnection,
  IfcMotorConnectionType,
  IfcMotorConnectionTypeEnum,
  IfcNamedUnit,
  IfcNonNegativeLengthMeasure,
  IfcNormalisedRatioMeasure,
  IfcNullStyle,
  IfcNumericMeasure,
  IfcObject,
  IfcObjectDefinition,
  IfcObjectPlacement,
  IfcObjectTypeEnum,
  IfcObjective,
  IfcObjectiveEnum,
  IfcOccupant,
  IfcOccupantTypeEnum,
  IfcOffsetCurve,
  IfcOffsetCurve2D,
  IfcOffsetCurve3D,
  IfcOffsetCurveByDistances,
  IfcOpenShell,
  IfcOpeningElement,
  IfcOpeningElementTypeEnum,
  IfcOpeningStandardCase,
  IfcOrganization,
  IfcOrganizationRelationship,
  IfcOrientationExpression,
  IfcOrientedEdge,
  IfcOuterBoundaryCurve,
  IfcOutlet,
  IfcOutletType,
  IfcOutletTypeEnum,
  IfcOwnerHistory,
  IfcPHMeasure,
  IfcParameterValue,
  IfcParameterizedProfileDef,
  IfcPath,
  IfcPcurve,
  IfcPerformanceHistory,
  IfcPerformanceHistoryTypeEnum,
  IfcPermeableCoveringOperationEnum,
  IfcPermeableCoveringProperties,
  IfcPermit,
  IfcPermitTypeEnum,
  IfcPerson,
  IfcPersonAndOrganization,
  IfcPhysicalComplexQuantity,
  IfcPhysicalOrVirtualEnum,
  IfcPhysicalQuantity,
  IfcPhysicalSimpleQuantity,
  IfcPile,
  IfcPileConstructionEnum,
  IfcPileType,
  IfcPileTypeEnum,
  IfcPipeFitting,
  IfcPipeFittingType,
  IfcPipeFittingTypeEnum,
  IfcPipeSegment,
  IfcPipeSegmentType,
  IfcPipeSegmentTypeEnum,
  IfcPixelTexture,
  IfcPlacement,
  IfcPlanarBox,
  IfcPlanarExtent,
  IfcPlanarForceMeasure,
  IfcPlane,
  IfcPlaneAngleMeasure,
  IfcPlate,
  IfcPlateStandardCase,
  IfcPlateType,
  IfcPlateTypeEnum,
  IfcPoint,
  IfcPointOnCurve,
  IfcPointOnSurface,
  IfcPolyLoop,
  IfcPolygonalBoundedHalfSpace,
  IfcPolygonalFaceSet,
  IfcPolyline,
  IfcPort,
  IfcPositioningElement,
  IfcPositiveInteger,
  IfcPositiveLengthMeasure,
  IfcPositivePlaneAngleMeasure,
  IfcPositiveRatioMeasure,
  IfcPostalAddress,
  IfcPowerMeasure,
  IfcPreDefinedColour,
  IfcPreDefinedCurveFont,
  IfcPreDefinedItem,
  IfcPreDefinedProperties,
  IfcPreDefinedPropertySet,
  IfcPreDefinedTextFont,
  IfcPreferredSurfaceCurveRepresentation,
  IfcPresentableText,
  IfcPresentationItem,
  IfcPresentationLayerAssignment,
  IfcPresentationLayerWithStyle,
  IfcPresentationStyle,
  IfcPresentationStyleAssignment,
  IfcPressureMeasure,
  IfcProcedure,
  IfcProcedureType,
  IfcProcedureTypeEnum,
  IfcProcess,
  IfcProduct,
  IfcProductDefinitionShape,
  IfcProductRepresentation,
  IfcProfileDef,
  IfcProfileProperties,
  IfcProfileTypeEnum,
  IfcProject,
  IfcProjectLibrary,
  IfcProjectOrder,
  IfcProjectOrderTypeEnum,
  IfcProjectedCRS,
  IfcProjectedOrTrueLengthEnum,
  IfcProjectionElement,
  IfcProjectionElementTypeEnum,
  IfcProperty,
  IfcPropertyAbstraction,
  IfcPropertyBoundedValue,
  IfcPropertyDefinition,
  IfcPropertyDependencyRelationship,
  IfcPropertyEnumeratedValue,
  IfcPropertyEnumeration,
  IfcPropertyListValue,
  IfcPropertyReferenceValue,
  IfcPropertySet,
  IfcPropertySetDefinition,
  IfcPropertySetTemplate,
  IfcPropertySetTemplateTypeEnum,
  IfcPropertySingleValue,
  IfcPropertyTableValue,
  IfcPropertyTemplate,
  IfcPropertyTemplateDefinition,
  IfcProtectiveDevice,
  IfcProtectiveDeviceTrippingUnit,
  IfcProtectiveDeviceTrippingUnitType,
  IfcProtectiveDeviceTrippingUnitTypeEnum,
  IfcProtectiveDeviceType,
  IfcProtectiveDeviceTypeEnum,
  IfcProxy,
  IfcPump,
  IfcPumpType,
  IfcPumpTypeEnum,
  IfcQuantityArea,
  IfcQuantityCount,
  IfcQuantityLength,
  IfcQuantitySet,
  IfcQuantityTime,
  IfcQuantityVolume,
  IfcQuantityWeight,
  IfcRadioActivityMeasure,
  IfcRailing,
  IfcRailingType,
  IfcRailingTypeEnum,
  IfcRamp,
  IfcRampFlight,
  IfcRampFlightType,
  IfcRampFlightTypeEnum,
  IfcRampType,
  IfcRampTypeEnum,
  IfcRatioMeasure,
  IfcRationalBSplineCurveWithKnots,
  IfcRationalBSplineSurfaceWithKnots,
  IfcReal,
  IfcRectangleHollowProfileDef,
  IfcRectangleProfileDef,
  IfcRectangularPyramid,
  IfcRectangularTrimmedSurface,
  IfcRecurrencePattern,
  IfcRecurrenceTypeEnum,
  IfcReference,
  IfcReferent,
  IfcReferentTypeEnum,
  IfcReflectanceMethodEnum,
  IfcRegularTimeSeries,
  IfcReinforcementBarProperties,
  IfcReinforcementDefinitionProperties,
  IfcReinforcingBar,
  IfcReinforcingBarRoleEnum,
  IfcReinforcingBarSurfaceEnum,
  IfcReinforcingBarType,
  IfcReinforcingBarTypeEnum,
  IfcReinforcingElement,
  IfcReinforcingElementType,
  IfcReinforcingMesh,
  IfcReinforcingMeshType,
  IfcReinforcingMeshTypeEnum,
  IfcRelAggregates,
  IfcRelAssigns,
  IfcRelAssignsToActor,
  IfcRelAssignsToControl,
  IfcRelAssignsToGroup,
  IfcRelAssignsToGroupByFactor,
  IfcRelAssignsToProcess,
  IfcRelAssignsToProduct,
  IfcRelAssignsToResource,
  IfcRelAssociates,
  IfcRelAssociatesApproval,
  IfcRelAssociatesClassification,
  IfcRelAssociatesConstraint,
  IfcRelAssociatesDocument,
  IfcRelAssociatesLibrary,
  IfcRelAssociatesMaterial,
  IfcRelConnects,
  IfcRelConnectsElements,
  IfcRelConnectsPathElements,
  IfcRelConnectsPortToElement,
  IfcRelConnectsPorts,
  IfcRelConnectsStructuralActivity,
  IfcRelConnectsStructuralMember,
  IfcRelConnectsWithEccentricity,
  IfcRelConnectsWithRealizingElements,
  IfcRelContainedInSpatialStructure,
  IfcRelCoversBldgElements,
  IfcRelCoversSpaces,
  IfcRelDeclares,
  IfcRelDecomposes,
  IfcRelDefines,
  IfcRelDefinesByObject,
  IfcRelDefinesByProperties,
  IfcRelDefinesByTemplate,
  IfcRelDefinesByType,
  IfcRelFillsElement,
  IfcRelFlowControlElements,
  IfcRelInterferesElements,
  IfcRelNests,
  IfcRelPositions,
  IfcRelProjectsElement,
  IfcRelReferencedInSpatialStructure,
  IfcRelSequence,
  IfcRelServicesBuildings,
  IfcRelSpaceBoundary,
  IfcRelSpaceBoundary1stLevel,
  IfcRelSpaceBoundary2ndLevel,
  IfcRelVoidsElement,
  IfcRelationship,
  IfcReparametrisedCompositeCurveSegment,
  IfcRepresentation,
  IfcRepresentationContext,
  IfcRepresentationItem,
  IfcRepresentationMap,
  IfcResource,
  IfcResourceApprovalRelationship,
  IfcResourceConstraintRelationship,
  IfcResourceLevelRelationship,
  IfcResourceTime,
  IfcRevolvedAreaSolid,
  IfcRevolvedAreaSolidTapered,
  IfcRightCircularCone,
  IfcRightCircularCylinder,
  IfcRoleEnum,
  IfcRoof,
  IfcRoofType,
  IfcRoofTypeEnum,
  IfcRoot,
  IfcRotationalFrequencyMeasure,
  IfcRotationalMassMeasure,
  IfcRotationalStiffnessMeasure,
  IfcRoundedRectangleProfileDef,
  IfcSIPrefix,
  IfcSIUnit,
  IfcSIUnitName,
  IfcSanitaryTerminal,
  IfcSanitaryTerminalType,
  IfcSanitaryTerminalTypeEnum,
  IfcSchedulingTime,
  IfcSeamCurve,
  IfcSectionModulusMeasure,
  IfcSectionProperties,
  IfcSectionReinforcementProperties,
  IfcSectionTypeEnum,
  IfcSectionalAreaIntegralMeasure,
  IfcSectionedSolid,
  IfcSectionedSolidHorizontal,
  IfcSectionedSpine,
  IfcSensor,
  IfcSensorType,
  IfcSensorTypeEnum,
  IfcSequenceEnum,
  IfcShadingDevice,
  IfcShadingDeviceType,
  IfcShadingDeviceTypeEnum,
  IfcShapeAspect,
  IfcShapeModel,
  IfcShapeRepresentation,
  IfcShearModulusMeasure,
  IfcShellBasedSurfaceModel,
  IfcSimpleProperty,
  IfcSimplePropertyTemplate,
  IfcSimplePropertyTemplateTypeEnum,
  IfcSite,
  IfcSlab,
  IfcSlabElementedCase,
  IfcSlabStandardCase,
  IfcSlabType,
  IfcSlabTypeEnum,
  IfcSlippageConnectionCondition,
  IfcSolarDevice,
  IfcSolarDeviceType,
  IfcSolarDeviceTypeEnum,
  IfcSolidAngleMeasure,
  IfcSolidModel,
  IfcSoundPowerLevelMeasure,
  IfcSoundPowerMeasure,
  IfcSoundPressureLevelMeasure,
  IfcSoundPressureMeasure,
  IfcSpace,
  IfcSpaceHeater,
  IfcSpaceHeaterType,
  IfcSpaceHeaterTypeEnum,
  IfcSpaceType,
  IfcSpaceTypeEnum,
  IfcSpatialElement,
  IfcSpatialElementType,
  IfcSpatialStructureElement,
  IfcSpatialStructureElementType,
  IfcSpatialZone,
  IfcSpatialZoneType,
  IfcSpatialZoneTypeEnum,
  IfcSpecificHeatCapacityMeasure,
  IfcSpecularExponent,
  IfcSpecularRoughness,
  IfcSphere,
  IfcSphericalSurface,
  IfcStackTerminal,
  IfcStackTerminalType,
  IfcStackTerminalTypeEnum,
  IfcStair,
  IfcStairFlight,
  IfcStairFlightType,
  IfcStairFlightTypeEnum,
  IfcStairType,
  IfcStairTypeEnum,
  IfcStateEnum,
  IfcStructuralAction,
  IfcStructuralActivity,
  IfcStructuralAnalysisModel,
  IfcStructuralConnection,
  IfcStructuralConnectionCondition,
  IfcStructuralCurveAction,
  IfcStructuralCurveActivityTypeEnum,
  IfcStructuralCurveConnection,
  IfcStructuralCurveMember,
  IfcStructuralCurveMemberTypeEnum,
  IfcStructuralCurveMemberVarying,
  IfcStructuralCurveReaction,
  IfcStructuralItem,
  IfcStructuralLinearAction,
  IfcStructuralLoad,
  IfcStructuralLoadCase,
  IfcStructuralLoadConfiguration,
  IfcStructuralLoadGroup,
  IfcStructuralLoadLinearForce,
  IfcStructuralLoadOrResult,
  IfcStructuralLoadPlanarForce,
  IfcStructuralLoadSingleDisplacement,
  IfcStructuralLoadSingleDisplacementDistortion,
  IfcStructuralLoadSingleForce,
  IfcStructuralLoadSingleForceWarping,
  IfcStructuralLoadStatic,
  IfcStructuralLoadTemperature,
  IfcStructuralMember,
  IfcStructuralPlanarAction,
  IfcStructuralPointAction,
  IfcStructuralPointConnection,
  IfcStructuralPointReaction,
  IfcStructuralReaction,
  IfcStructuralResultGroup,
  IfcStructuralSurfaceAction,
  IfcStructuralSurfaceActivityTypeEnum,
  IfcStructuralSurfaceConnection,
  IfcStructuralSurfaceMember,
  IfcStructuralSurfaceMemberTypeEnum,
  IfcStructuralSurfaceMemberVarying,
  IfcStructuralSurfaceReaction,
  IfcStyleModel,
  IfcStyledItem,
  IfcStyledRepresentation,
  IfcSubContractResource,
  IfcSubContractResourceType,
  IfcSubContractResourceTypeEnum,
  IfcSubedge,
  IfcSurface,
  IfcSurfaceCurve,
  IfcSurfaceCurveSweptAreaSolid,
  IfcSurfaceFeature,
  IfcSurfaceFeatureTypeEnum,
  IfcSurfaceOfLinearExtrusion,
  IfcSurfaceOfRevolution,
  IfcSurfaceReinforcementArea,
  IfcSurfaceSide,
  IfcSurfaceStyle,
  IfcSurfaceStyleLighting,
  IfcSurfaceStyleRefraction,
  IfcSurfaceStyleRendering,
  IfcSurfaceStyleShading,
  IfcSurfaceStyleWithTextures,
  IfcSurfaceTexture,
  IfcSweptAreaSolid,
  IfcSweptDiskSolid,
  IfcSweptDiskSolidPolygonal,
  IfcSweptSurface,
  IfcSwitchingDevice,
  IfcSwitchingDeviceType,
  IfcSwitchingDeviceTypeEnum,
  IfcSystem,
  IfcSystemFurnitureElement,
  IfcSystemFurnitureElementType,
  IfcSystemFurnitureElementTypeEnum,
  IfcTShapeProfileDef,
  IfcTable,
  IfcTableColumn,
  IfcTableRow,
  IfcTank,
  IfcTankType,
  IfcTankTypeEnum,
  IfcTask,
  IfcTaskDurationEnum,
  IfcTaskTime,
  IfcTaskTimeRecurring,
  IfcTaskType,
  IfcTaskTypeEnum,
  IfcTelecomAddress,
  IfcTemperatureGradientMeasure,
  IfcTemperatureRateOfChangeMeasure,
  IfcTendon,
  IfcTendonAnchor,
  IfcTendonAnchorType,
  IfcTendonAnchorTypeEnum,
  IfcTendonConduit,
  IfcTendonConduitType,
  IfcTendonConduitTypeEnum,
  IfcTendonType,
  IfcTendonTypeEnum,
  IfcTessellatedFaceSet,
  IfcTessellatedItem,
  IfcText,
  IfcTextAlignment,
  IfcTextDecoration,
  IfcTextFontName,
  IfcTextLiteral,
  IfcTextLiteralWithExtent,
  IfcTextPath,
  IfcTextStyle,
  IfcTextStyleFontModel,
  IfcTextStyleForDefinedFont,
  IfcTextStyleTextModel,
  IfcTextTransformation,
  IfcTextureCoordinate,
  IfcTextureCoordinateGenerator,
  IfcTextureMap,
  IfcTextureVertex,
  IfcTextureVertexList,
  IfcThermalAdmittanceMeasure,
  IfcThermalConductivityMeasure,
  IfcThermalExpansionCoefficientMeasure,
  IfcThermalResistanceMeasure,
  IfcThermalTransmittanceMeasure,
  IfcThermodynamicTemperatureMeasure,
  IfcTime,
  IfcTimeMeasure,
  IfcTimePeriod,
  IfcTimeSeries,
  IfcTimeSeriesDataTypeEnum,
  IfcTimeSeriesValue,
  IfcTimeStamp,
  IfcTopologicalRepresentationItem,
  IfcTopologyRepresentation,
  IfcToroidalSurface,
  IfcTorqueMeasure,
  IfcTransformer,
  IfcTransformerType,
  IfcTransformerTypeEnum,
  IfcTransitionCode,
  IfcTransitionCurveSegment2D,
  IfcTransitionCurveType,
  IfcTransportElement,
  IfcTransportElementType,
  IfcTransportElementTypeEnum,
  IfcTrapeziumProfileDef,
  IfcTriangulatedFaceSet,
  IfcTriangulatedIrregularNetwork,
  IfcTrimmedCurve,
  IfcTrimmingPreference,
  IfcTubeBundle,
  IfcTubeBundleType,
  IfcTubeBundleTypeEnum,
  IfcTypeObject,
  IfcTypeProcess,
  IfcTypeProduct,
  IfcTypeResource,
  IfcURIReference,
  IfcUShapeProfileDef,
  IfcUnitAssignment,
  IfcUnitEnum,
  IfcUnitaryControlElement,
  IfcUnitaryControlElementType,
  IfcUnitaryControlElementTypeEnum,
  IfcUnitaryEquipment,
  IfcUnitaryEquipmentType,
  IfcUnitaryEquipmentTypeEnum,
  IfcValve,
  IfcValveType,
  IfcValveTypeEnum,
  IfcVaporPermeabilityMeasure,
  IfcVector,
  IfcVertex,
  IfcVertexLoop,
  IfcVertexPoint,
  IfcVibrationDamper,
  IfcVibrationDamperType,
  IfcVibrationDamperTypeEnum,
  IfcVibrationIsolator,
  IfcVibrationIsolatorType,
  IfcVibrationIsolatorTypeEnum,
  IfcVirtualElement,
  IfcVirtualGridIntersection,
  IfcVoidingFeature,
  IfcVoidingFeatureTypeEnum,
  IfcVolumeMeasure,
  IfcVolumetricFlowRateMeasure,
  IfcWall,
  IfcWallElementedCase,
  IfcWallStandardCase,
  IfcWallType,
  IfcWallTypeEnum,
  IfcWarpingConstantMeasure,
  IfcWarpingMomentMeasure,
  IfcWasteTerminal,
  IfcWasteTerminalType,
  IfcWasteTerminalTypeEnum,
  IfcWindow,
  IfcWindowLiningProperties,
  IfcWindowPanelOperationEnum,
  IfcWindowPanelPositionEnum,
  IfcWindowPanelProperties,
  IfcWindowStandardCase,
  IfcWindowStyle,
  IfcWindowStyleConstructionEnum,
  IfcWindowStyleOperationEnum,
  IfcWindowType,
  IfcWindowTypeEnum,
  IfcWindowTypePartitioningEnum,
  IfcWorkCalendar,
  IfcWorkCalendarTypeEnum,
  IfcWorkControl,
  IfcWorkPlan,
  IfcWorkPlanTypeEnum,
  IfcWorkSchedule,
  IfcWorkScheduleTypeEnum,
  IfcWorkTime,
  IfcZShapeProfileDef,
  IfcZone,
  LABEL,
  LINE_END,
  REAL,
  REF,
  SET_BEGIN,
  SET_END,
  STRING,
  UNKNOWN,
  Value,
  ms
};


 var WasmPath = "";

